Filtern
Dokumenttyp
- Zeitschriftenartikel (853) (entfernen)
Sprache
- Englisch (843)
- Deutsch (8)
- Mehrsprachig (2)
Schlagworte
- SAXS (60)
- Mechanochemistry (54)
- MALDI-TOF MS (51)
- Nanoparticles (50)
- Polylactide (42)
- XPS (34)
- Laser-induced periodic surface structures (LIPSS) (26)
- Small-angle X-ray scattering (24)
- Nanoparticle (22)
- Electron microscopy (19)
- Crystallization (16)
- Cyclization (16)
- Microplastics (16)
- X-ray photoelectron spectroscopy (16)
- In situ (15)
- Synchrotron (15)
- XRD (15)
- TED-GC/MS (14)
- X-ray scattering (13)
- BAMline (11)
- Catalysis (11)
- Microplastic (11)
- XANES (11)
- DNA (10)
- Laser processing (10)
- Surface functionalization (10)
- X-ray diffraction (10)
- Ring-opening polymerization (9)
- SEM (9)
- Thin films (9)
- Automation (8)
- Corrosion (8)
- DFT (8)
- Dosimetry (8)
- Femtosecond laser (8)
- MOUSE (8)
- Polymers (8)
- Radiation damage (8)
- Scattering (8)
- Simulation (8)
- Synthesis (8)
- ToF-SIMS (8)
- Broadband dielectric spectroscopy (7)
- Catalyst (7)
- Density functional theory (7)
- Energetic materials (7)
- Fluorescence (7)
- Geant4 (7)
- Geant4-DNA (7)
- Graphene (7)
- MALDI TOF MS (7)
- MOF (7)
- Microdosimetry (7)
- NAP-XPS (7)
- NEXAFS (7)
- Nanomaterials (7)
- Polymerization (7)
- Radiation protection (7)
- Reference material (7)
- XAS (7)
- Cocrystal (6)
- Crystalinity (6)
- Diffraction (6)
- Ectoine (6)
- Electrochemistry (6)
- High-pressure (6)
- Ionization (6)
- LEE (6)
- Mass spectrometry (6)
- Mechanical properties (6)
- Nanocomposites (6)
- Polycondensation (6)
- Polymer (6)
- Polymorphism (6)
- Raman spectroscopy (6)
- Ring-expansion polymerization (6)
- Silver nanoparticles (6)
- Steel (6)
- Struvite (6)
- Transesterification (6)
- XRF (6)
- AFM (5)
- Adsorption (5)
- Calcium sulfate (5)
- Catalysts (5)
- DNA damage (5)
- EDS (5)
- EXAFS (5)
- FTIR (5)
- Friction (5)
- Kinetics (5)
- Nanocomposite (5)
- Nanostructures (5)
- Oxidation (5)
- Particle size distribution (5)
- Sample preparation (5)
- Silicon (5)
- Spectroscopic ellipsometry (5)
- Spectroscopy (5)
- Synchrotron radiation (5)
- TiO2 (5)
- X-ray absorption spectroscopy (5)
- Additive manufacturing (4)
- Applications (4)
- Atomic force microscopy (4)
- AuNP (4)
- Beta decay (4)
- Brachytherapy (4)
- Cancer treatment (4)
- Core-shell (4)
- Discotic Liquid Crystals (4)
- EPMA (4)
- Ectoin (4)
- Energy deposit (4)
- Epoxy (4)
- Femtosecond laser ablation (4)
- Functionalized graphene (4)
- G5P (4)
- General Chemistry (4)
- General Materials Science (4)
- Gold (4)
- Gold Nanoparticles (4)
- HAXPES (4)
- High entropy alloy (4)
- High-entropy alloys (4)
- Hydrogen (4)
- Ionic liquid (4)
- Low energy electrons (4)
- MCS (4)
- Magnetism (4)
- Mechanical flexibility (4)
- Monte-Carlo simulation (4)
- NP (4)
- Nanoplastics (4)
- Nucleation (4)
- Phase diagrams (4)
- Phase transition (4)
- Phonons (4)
- Polyglycerol (4)
- Protein (4)
- Quantum dots (4)
- Radiationtherapy (4)
- Radioactive decay (4)
- Roughness (4)
- SSB (4)
- Single-source precursors (4)
- Size (4)
- Small-angle scattering (4)
- TEM (4)
- TOPAS (4)
- TOPAS-nbio (4)
- Titanium dioxide (4)
- Tribology (4)
- Ultrashort laser pulses (4)
- VAMAS (4)
- Wear (4)
- ssDNA (4)
- Advanced calorimetry (3)
- Aging (3)
- Alkali-activated materials (3)
- Amyloid (3)
- Analysis (3)
- Antibacterial (3)
- Atomistic models (3)
- Bacteria (3)
- Base damage (3)
- Base loss (3)
- Bio-SAXS (3)
- Biofilm (3)
- Biofilms (3)
- Boehmite (3)
- C-F bond activation (3)
- Cancer (3)
- Classification (3)
- Core-shell particles (3)
- Cosolute (3)
- Crystals (3)
- Defects (3)
- Deuterium (3)
- Direct laser writing (3)
- Discotic liquid crystals (3)
- Electrical conductivity (3)
- Electrocatalysis (3)
- Electron probe microanalysis (3)
- Electron probe microanalysis (EPMA) (3)
- Electrospinning (3)
- Element-specific spectroscopy (3)
- Elemental composition (3)
- Femtosecond laser processing (3)
- Flash DSC (3)
- Flexible crystals (3)
- GVP (3)
- Graphene oxide (3)
- Green chemistry (3)
- High-throughput (3)
- Image processing (3)
- Imaging (3)
- In situ studies (3)
- In-situ (3)
- Instrumentation (3)
- Intermodulation AFM (3)
- Ionic Liquid Crystals (3)
- Ionizing radiation damage (3)
- Iron (3)
- Laser ablation (3)
- Laser-induced X-ray emission (3)
- Lead ions (3)
- Luminescence (3)
- MALDI (3)
- Materials (3)
- Materials Chemistry (3)
- Metal-organic-frameworks (3)
- Metrology (3)
- Microstructure (3)
- Microstructures (3)
- Mikroplastik (3)
- Monte-Carlo simulations (3)
- Multiphoton lithography (3)
- Nano (3)
- Nanomaterial (3)
- Nanostructure (3)
- Neutron scattering (3)
- OH radical (3)
- OH radical scavenger (3)
- OH radicals (3)
- Organic crystal (3)
- Particle scattering (3)
- Phosphates (3)
- Photocatalysis (3)
- Photooxidation (3)
- Platinum (3)
- Polyester (3)
- Polyglycolide (3)
- Polymers of intrinsic microporosity (3)
- Polyurethane (3)
- Protein unfolding (3)
- Proton conductivity (3)
- Quantification (3)
- Quantum yield (3)
- ROPPOC (3)
- ROS (3)
- Radical scavenger (3)
- Radiolysis (3)
- Raman (3)
- Ring opening polymerization (3)
- Self-assembly (3)
- Single-stranded DNA-binding proteins (3)
- Specific heat spectroscopy (3)
- Stability (3)
- Standardisation (3)
- Standardization (3)
- Surface (3)
- Surface analysis (3)
- Surface chemistry (3)
- Surfaces (3)
- Thermal decomposition (3)
- Thickness (3)
- Titanium oxide (3)
- Toxicology (3)
- Transition metals (3)
- Transmission function (3)
- Tungsten (3)
- Ultrashort pulsed laser (3)
- Water (3)
- X-ray Photoelectron Spectroscopy (3)
- X-ray spectroscopy (3)
- XAFS (3)
- ZIF-8 (3)
- Zinc oxide (3)
- Zirconium (3)
- nanoparticle (3)
- 2D Materials (2)
- 2PP (2)
- 3D printing (2)
- AISI 304L (2)
- API (2)
- ATR-FTIR spectroscopy (2)
- Ab initio (2)
- Ab initio simulation (2)
- Acid resistance (2)
- Additive Manufacturing (2)
- Advanced materials (2)
- Affinity chromatography (2)
- Aktivkohle (2)
- Alkaline earth metal coordination polymers (2)
- Alloys (2)
- Amphiphilicity (2)
- Anlagensicherheit (2)
- Anodization (2)
- Aqueous synthesis (2)
- Artificial digestion (2)
- Atomic layer deposition (2)
- Au (2)
- Automated synthesis (2)
- BET (2)
- Bacterial adhesion (2)
- Bacterial attachment (2)
- Bassanite (2)
- Beta particle (2)
- BioSAXS (2)
- Biobased polymers (2)
- Biomarker (2)
- Biomaterials (2)
- Bismuth (2)
- Bisphenol A (2)
- Bonding Analysis (2)
- Boson peak (2)
- Building and Construction (2)
- C-C coupling (2)
- CXC (2)
- Carbon nanotubes (2)
- Catechol (2)
- Cement hydration (2)
- Ceramics and Composites (2)
- Chalcopyrite (2)
- Chemical bonds (2)
- Clustered nanoparticles (2)
- Coatings and Films (2)
- Cobalt (2)
- Cocrystals (2)
- Complex oxides (2)
- Composites (2)
- Coordination polymers (2)
- Copper (2)
- Core-shell nanoparticles (2)
- Crosslinking (2)
- Crystal engineering (2)
- Crystal structure (2)
- Cyclic (2)
- DFT calculation (2)
- DMSO (2)
- DNA radiation damage (2)
- DSC (2)
- Data analysis (2)
- Decision support (2)
- Density separation (2)
- Dielectric spectroscopy (2)
- Digestion (2)
- Direct damage (2)
- Direct laser interference patterning (DLIP) (2)
- Dissociative electron attachment (DEA) (2)
- Dissociative electron transfer (DET) (2)
- Double complex salts (2)
- Double-strand break (DSB) (2)
- Dynamic Light Scattering (2)
- EOS (2)
- Electrolysis (2)
- Electrolyte membrane (2)
- Electronic structure (2)
- Electronic, Optical and Magnetic Materials (2)
- Encapsulation (2)
- Energetic Materials (2)
- Epoxy nanocomposites (2)
- Ettringite (2)
- Extended X-ray absorption fine structure (EXAFS) (2)
- Fast scanning calorimetry (2)
- Fe-Ni (2)
- Ferrihydrite (2)
- Ferromagnetism (2)
- Film thickness (2)
- Fluoride (2)
- Formaldehyde (2)
- Fullerene (2)
- Functionalization (2)
- Gamma ray (2)
- Gas separation membranes (2)
- Geothermie (2)
- Grafting (2)
- Graphitization (2)
- Gypsum (2)
- HPLC (2)
- Hard x-ray photoelectron spectroscopy (2)
- Heterogeneous catalysis (2)
- High pressure (2)
- High repetition rate (2)
- Hybrid metrology (2)
- Hydrated DNA (2)
- Hydrated electron (2)
- Hydration shell (2)
- Hydrogen evolution reaction (2)
- Hydroxyectoine (2)
- Hydroxyl radical (2)
- Hyperbranched (2)
- ICP-OES (2)
- Image segmentation (2)
- Imaging XPS (2)
- Implant material (2)
- In situ real-time monitoring (2)
- In-situ polymerization (2)
- Indirect damage (2)
- Industrial and Manufacturing Engineering (2)
- Inter-laboratory comparison (2)
- Interlaboratory comparison (2)
- Interphase (2)
- Iridium oxide (2)
- Iron oxide (2)
- Korrosion (2)
- Lactide (2)
- Lanthanide (2)
- Laser (2)
- Laser ablation in liquid (2)
- Laser-induced breakdown spectroscopy (2)
- Laser-induced oxide layer (2)
- Laser-induced plasma (2)
- Laser-induced x-ray emission (2)
- Lateral resolution (2)
- Legierungen (2)
- Liquid crystals (2)
- Livermore model (2)
- MIC (2)
- Machine Learning (2)
- Machine learning (2)
- Mass Spectrometry (2)
- Material synthesis (2)
- McSAS3 (2)
- Mechanical property (2)
- Mechanochemical synthesis (2)
- Mesoporosity (2)
- Mesoporous Silica (2)
- Metal fluorides (2)
- Metal phosphonates (2)
- Metal-organic frameworks (2)
- Metals and Alloys (2)
- Methane (2)
- Method (2)
- Methodology (2)
- Microbially induced corrosion (2)
- Microbiologically influenced corrosion (2)
- Micropatterning (2)
- Microscopy (2)
- Microwave synthesis (2)
- Milling (2)
- Modelling (2)
- Molecular mobility (2)
- Molecular sieves (2)
- Mueller-Matrix imaging ellipsometry (2)
- Mussel-inspired adhesives (2)
- NMR spectroscopy (2)
- Nanoindentation (2)
- Nanoparticle concentration (2)
- Nanopatricle (2)
- Nanosheets (2)
- Near ambient pressure xray photo electron spectroscopy (2)
- Net-ionization reaction (2)
- Neutron Scattering (2)
- Nickel (2)
- Niobium (2)
- Nitrides (2)
- Nuclear magnetic resonance (2)
- OER (2)
- OH Radical (2)
- Organic Chemistry (2)
- Organic compounds (2)
- Oxygen evolution reaction (2)
- Oxygen evolution reaction (OER) (2)
- PCA (2)
- PDF (2)
- PXRD (2)
- Particle (2)
- Particle morphology (2)
- Particle scattering simulations (2)
- Particle size (2)
- Passivation (2)
- Penelope model (2)
- Phosphorus (2)
- Physical and Theoretical Chemistry (2)
- Plasma (2)
- Pollen (2)
- Polycarbonate (2)
- Polydopamine (2)
- Polyethylene glycol (2)
- Polymer blends (2)
- Polymer composites (2)
- Polymer of intrinsic microporosity (2)
- Polymers of Intrinsic Microporosity (2)
- Polynorbornenes (2)
- Polyvinyl alcohol (2)
- Porous materials (2)
- Powder X-ray diffraction (2)
- Precipitation (2)
- Prehydrated electron (2)
- Principal component analysis (2)
- Purification (2)
- Quality assurance (2)
- Quality control (2)
- Quasi-direct damage (2)
- Quasielastic neutron scattering (2)
- Quick-EXAFS (2)
- Radiation therapy (2)
- Radical (2)
- Radical Scavenger (2)
- Reactive oxygen species (2)
- Reference Material (2)
- Reference materials (2)
- Refractory alloys (2)
- Renewable Energy (2)
- Reproducibility (2)
- Reverse Monte Carlo (RMC) (2)
- Rigid amorphous fraction (2)
- Ring-opening Polymerization (2)
- Rosin (2)
- SEC (2)
- SIMS (2)
- SZ2080 negative photo-resist (2)
- Secondary ion mass spectrometry (2)
- Selective oxidation (2)
- Sensing (2)
- Si-Ge (2)
- Siderite (2)
- Simvastatin (2)
- Single-strand break (SSB) (2)
- Small angle scattering (2)
- Small-angle x-ray scattering (2)
- Small-angle xray scattering (2)
- Small-spot XPS (2)
- Software (2)
- Soil (2)
- Solid state NMR (2)
- Solubility (2)
- Spectroskopic Imaging (2)
- Stainless steel (2)
- Surface chemical analysis (2)
- Surface coating (2)
- Surface modification (2)
- Surface science (2)
- Sustainability and the Environment (2)
- TGA (2)
- Thermal degradation (2)
- Thermodynamics (2)
- Thermoelectrics (2)
- Thermoplastics (2)
- Thin polymer films (2)
- Time-resolved (2)
- Tin acetates (2)
- Tire wear (2)
- Topas (2)
- Topas-MC (2)
- Topas-nBio (2)
- Toxicity (2)
- Traceability (2)
- Transmission electron microscopy (2)
- Twinning (2)
- Two-photon polymerization (2)
- UV degradation (2)
- UV radiation (2)
- Ultra thin polymer films (2)
- Ultrashort laser material interaction (2)
- Uncertainties (2)
- VRFB (2)
- Virus inhibition (2)
- X-ray Photoelectron Spectroscopy (XPS) (2)
- X-ray fluorescence spectroscopy (2)
- X-ray production efficiency (2)
- X-ray refraction (2)
- Xray (2)
- Xray photo electron spectrocopy (2)
- ZIF (2)
- ZnO nanopillars (2)
- (Quantitative) Structure-Active Relationships (1)
- (ter-)pyridineterminated self-assembled monolayer (1)
- 1-propyl-3-methyl-imidazolium bis(trifluoromethylsulfonyl)imide (1)
- 1H-NMR (1)
- 2,6-diaminopyridine (1)
- 2-oxazoline (1)
- 266nm (1)
- 29Si (1)
- 2D (1)
- 2D chromatography (1)
- 2D nanomaterial (1)
- 3D (1)
- 3D-printing (1)
- 4H–SiC (1)
- 89Y MAS-NMR (1)
- A4F (1)
- ACEnano (1)
- AEMFC (1)
- AET (1)
- AFM force spectroscopy (1)
- AG nanoparticle (1)
- AGE (1)
- APTES (1)
- ASTM (1)
- ATZ (1)
- AU nanoparticle (1)
- AZ31 (1)
- Aantimicrobial (1)
- Ab initio Simulation (1)
- Ab initio calculations (1)
- Ab initio thermodynamics (1)
- Abasic site (1)
- Absolute adsorption (1)
- Absorption spectrometry (1)
- Abwasser (1)
- Acid corrosion (1)
- Acid rock drainage (1)
- Acidic oxygen evolution reaction (1)
- Acoustic (1)
- Acoustic levitation (1)
- Acrylamide (1)
- Acute myocardial infarction (1)
- Additives (1)
- Adhesion (1)
- Adhesion by mechanical interlocking (1)
- Adhesives (1)
- Adsorbtion (1)
- Advanced Oxidation (1)
- Advanced material (1)
- Affinity Chromatography (1)
- Affinity Extraction (1)
- Affinity Separation (1)
- Ag (1)
- AgInS (1)
- Agarose gel electrophorese (1)
- Aggregation (1)
- Air fragmentation (1)
- Al-based alloy (1)
- Al13 (1)
- Algae growth test (1)
- Algorithm (1)
- Alkali activated materials (1)
- Alkali-silica reaction (1)
- Alkaline brines (1)
- Alkoxysilanes (1)
- Alloy (1)
- Alloy 31 (1)
- Alloy morphology (1)
- Alpha (1)
- Alpha-tricalcium phosphate (1)
- Alternating co-poly(ether pyridine)s (1)
- Alumina toughened zirconia (1)
- Aluminium (1)
- Aluminium fluorides (1)
- Aluminium hydroxide (1)
- Aluminium oxide hydroxide (1)
- Aluminium teflates (1)
- Aluminum (1)
- Aluminum alloys (1)
- Ambient ionization (1)
- Amino Acids (1)
- Amorphization (1)
- Amorphous materials (1)
- Amorphous phases (1)
- Amperometry (1)
- Analysis area measurements (1)
- Analytical Chemistry (1)
- Analytical methods (1)
- Anhydrite (1)
- Anion exchange (1)
- Annealing (1)
- Anomalous Small Angle X-ray Scattering (1)
- Anthracene schiff base (1)
- Antibacterial properties (1)
- Antibacterial surface coatings (1)
- Antibacterial surfaces (1)
- Antibiotic delivery (1)
- Antibiotic release (1)
- Antibodies (1)
- Antibody Purification (1)
- Anticancer (1)
- Antifouling (1)
- Antifouling surface coatings (1)
- Antifriction coefficient (1)
- Antigen testing (1)
- Antikensammlung Berlin (1)
- Antimicrobial titanium coating (1)
- Antimony oxychloride ( Sb4O5Cl2) (1)
- Antiviral activity (1)
- Archaeometry (1)
- Argon gas cluster ion sputtering (1)
- Aromatic (1)
- Aromatic aldehydes (1)
- Aromatic organic compounds, (1)
- Aromatic pollutants (1)
- Arsenic retention (1)
- Artificial Intelligence (AI) (1)
- Artificial intelligence (1)
- Artificial neural network modelling (1)
- Artificial weathering (1)
- Aspergillus (1)
- Asymmetrical flow field flow fractionation (AF4) (1)
- Atom probe tomography (1)
- Atomic and Molecular Physics and Optics (1)
- Atomspheric-Pressure (1)
- Au nanoparticles (1)
- Au/Ag nanoparticles, (1)
- Augenbohne (1)
- Auger Electron Spectroscopy (1)
- Auger-electron spectroscopy (AES) (1)
- Automated Purification (1)
- Automated analysis (1)
- Automated image analysis (1)
- Automatisation (1)
- Azobenzene (1)
- BAM-P109 (1)
- BESSY (1)
- BET specific surface area (1)
- BSA (1)
- Bacterial lipopolysaccharides (1)
- Bacteriophage f1 (1)
- Ball milling (1)
- Band gap (1)
- Barium (1)
- Basaluminite (1)
- Batteries (1)
- Battery (1)
- Bayesian Optimization (1)
- Bbeverages (1)
- Benchmarking (1)
- Bending mechanism (1)
- Bending modulus (1)
- Beschichtung (1)
- Beta elimination (1)
- Bifunctionality (1)
- Bimetallic alloy (1)
- Bimetallic frameworks (1)
- Bimetallic noble metal nanoparticles (1)
- Bimodal size distribution (1)
- Binary zinc alloys (1)
- Binder Jetting (1)
- Bio sensing device (1)
- Bio-ceramic engineering (1)
- Bio-orthogonal chemistry (1)
- Bio-weathering (1)
- Biobased (1)
- Bioceramics (1)
- Biochip (1)
- Biocorrosion (1)
- Biodosimetry (1)
- Biofilm formation (1)
- Biofilm quantification (1)
- Biofunctional Molecules (1)
- Biogene Schwefelsäurekorrosion (1)
- Biogenic acid corrosion (1)
- Bioimaging (1)
- Bioinspiration (1)
- Biointerfaces (1)
- Biological & biomedical applications (1)
- Biologisches Dosimeter (1)
- Biomedical application (1)
- Biomimetic (1)
- Biomimetic surfaces (1)
- Biomimicry (1)
- Bionic materials (1)
- Bioresorbable Biomaterials (1)
- Biosensor (1)
- Biosensors (1)
- Biosourced isosorbide (1)
- Biosynthesis (1)
- Bipyramid (1)
- Bismuth Ferrite (1)
- Bismuth titanates (1)
- Black fungi (1)
- Black phosphorus (1)
- Blends (1)
- Bloch wall (1)
- Blockcopolymer (1)
- Boehmite nanoparticles (1)
- Bone (1)
- Bone matrix (1)
- Bone screws (1)
- Boronic acid (1)
- Boronic acid-functionalized 2D MoS2 (1)
- Borosilicate Glass (1)
- Bovine serum albumin (1)
- Bragg peak (1)
- Brain PET tracers (1)
- Brilliant Blue R (1)
- Broadband Dielectric Spectrscopy (1)
- Broadband dielectric microscopy (1)
- Bronsted acidity (1)
- Brown-rot fungi (1)
- Brunauer-Emmett-Teller (1)
- Buffer (1)
- Bulk metallic glasses (1)
- Bulk temperature (1)
- Buried interfaces (1)
- Bystander effect (1)
- C-F activation (1)
- C7H15N2O4P (1)
- CALPHAD (1)
- CCMat (1)
- CCQM (Consultative Committee for Amount of Substance) (1)
- CCQM key comparison (1)
- CIGS (1)
- CO2 (1)
- COF (1)
- COFs (1)
- COK-12 (1)
- CPD (1)
- Cadmium and lead remediation (1)
- Calamistrum (1)
- Calcium monofluoride (1)
- Calcium silicate hydrate (1)
- Calibration (1)
- Caloric effects (1)
- Calorimetry (1)
- Cancer therapy (1)
- Cantor (1)
- Capillary (1)
- Capillary electrophoresis (1)
- Capillary electrophoresis (CE) (1)
- Capillary waves (1)
- Carbide (1)
- Carbon Nanomembranes (1)
- Carbon Nanotubes (1)
- Carbon dioxide (1)
- Carbon dioxide reduction (1)
- Carbon fibers (1)
- Carbon ions (1)
- Carbon materials (1)
- Carbon nanoparticles (1)
- Carbon steel corrosion (1)
- Carbon storage (1)
- Carboxyl group (1)
- Carboxylative cyclization of propargyl alcohols (1)
- Cardiac troponin (1)
- Carrier protein (1)
- Cassical nucleation theory (1)
- Catalyst layer (1)
- Catalytic fixation of carbon dioxide (1)
- Categorisation scheme (1)
- Cathode material (1)
- Cationic photocuring (1)
- Cationic ring opening polymerization (1)
- CdS (1)
- Cell appendages (1)
- Cell sheet fabrication (1)
- Cell size (1)
- Cell-envelope (1)
- Cell-repellent surfaces (1)
- Cells (1)
- Cellulose acetate (1)
- Cellulose nanofibrils (1)
- Cement admixtures (1)
- Ceramic matrix composites (1)
- Ceramic nano particles (1)
- Ceramics 3D printing (1)
- Ceria (1)
- Cerium oxide (1)
- Certified reference nanomaterials (1)
- Characterisation (1)
- Charge-to-size-ratio (1)
- Chemical Biology (1)
- Chemical analysis (1)
- Chemical transformation (1)
- Chemically Complex Materials (1)
- Chemiluminescence (1)
- Chemisorption (1)
- Chemotherapy (1)
- Chemputer (1)
- Ciprofloxacin (1)
- Citizen Science (1)
- Clerodin (1)
- Click chemistry (1)
- Clinoptilolite (1)
- Cluster (1)
- Co (1)
- Co-crystal (1)
- Coaggregation (1)
- Coating (1)
- Coating materials (1)
- Coatings (1)
- Cobalt (III) Schiff base complex (1)
- Cobalt and zinc oxides (1)
- Cobalt deposition (1)
- Cocoa (1)
- Coded Aperture (1)
- Coded aperture (1)
- Coded apertures (1)
- Coherent exchange (1)
- Collaborative trial (1)
- Column holder (1)
- Columnar Liquid Crystal (1)
- Combinatorial peptide library (1)
- Combined sewer system (1)
- Combined techniques (1)
- Commercialization (1)
- Comparability (1)
- Compatible solute (1)
- Complementary methodology and metrology (1)
- Complex (1)
- Complex Molecular Systems (1)
- Complex-shape (1)
- Complexity (1)
- Composition (1)
- Compositional complex alloys (1)
- Compost (1)
- Compound semiconductors (1)
- Compressibility (1)
- Computational Materials Science (1)
- Computational chemistry (1)
- Computations (1)
- Computed tomography (1)
- Computer Science Applications (1)
- Concentration (1)
- Concentration step (1)
- Condensed Matter Physics (1)
- Conditioning films (1)
- Conductivity (1)
- Conference (1)
- Confocal microscopy (1)
- Confocal raman imaging (1)
- Coniophora puteana (1)
- Conjugate (1)
- Conservation (1)
- Construction (1)
- Controlled morphology (1)
- Controlled periodic illumination (1)
- Controlled-shape (1)
- Conversion (1)
- Convolutional neural networks (1)
- Coordination chemistry (1)
- Coordination polymer (1)
- Copolymerization (1)
- Copper nanoparticles (1)
- Copper sulfides (1)
- Coprecipitation (1)
- Core-clusters (1)
- Core-shell structures (1)
- Core–shell particles (1)
- Corona Discharge (1)
- Correlation (1)
- Correlative analysis (1)
- Corrosion monitoring (1)
- Corrosion protection (1)
- Corrosion resistance (1)
- Corrosion testing (1)
- Corundum (1)
- Counterions (1)
- Coupling reactions (1)
- Covalend functionalization (1)
- Covalent Organic Frameworks (1)
- Covalent Organic frameworks (1)
- Covalent functionalization (1)
- Covalent interactions (1)
- CrMnFeCoNi (1)
- Creep (1)
- Cribellate spiders (1)
- Cristobalite frameworks (1)
- Cross-sectioning (1)
- Crosslinking density (1)
- Cryo XPS (1)
- Cryo milling (1)
- Crystal Engineering (1)
- Crystal growth (1)
- Crystallization sequence (1)
- Crystalstructure (1)
- Cu catalysts (1)
- CuNPs (1)
- CuO nanoparticles (1)
- Cubical shape (1)
- Cultural heritage (1)
- Curie temperature (1)
- Cy3 (1)
- Cyclic Voltammetry (1)
- Cyclic voltammetry (1)
- Cyclisation (1)
- Cycloaddition (1)
- Cycloaliphatic epoxy oligosiloxane (1)
- Cyclometalated iridium (III) complexes (1)
- Cycloparaphenylenes (1)
- Cytotoxicity (1)
- D2XRF (1)
- D7755-11 (1)
- DFT calculations (1)
- DFT calculations of Raman spectra (1)
- DLS (1)
- DNA Dosimeter (1)
- DNA base damage (1)
- DNA based data storage (1)
- DNA data storage (1)
- DNA degradation (1)
- DNA long term storage (1)
- DNA melting temperature (1)
- DNA protection (1)
- DNA reference material (1)
- DNA stability (1)
- DNA strand-break (1)
- DNA vortexing (1)
- DOPO (1)
- DPSS-laser (1)
- DSB (1)
- DSM 5009 (1)
- DTAB (1)
- DVS (1)
- Damage (1)
- Damping factor (1)
- Data (1)
- Data curation (1)
- Data fitting (1)
- Data readiness level (1)
- Database (1)
- Debye scattering equation (1)
- Debye-Waller parameter (1)
- Definition (1)
- Degradation (1)
- Degradation mechanisms (1)
- Degradation of polyethylene (1)
- Degradation signatures (1)
- Degradation studies (1)
- Dehydroxylation (1)
- Dendrimer (1)
- Dendritic polyglycerol (1)
- Density Functional Theory (1)
- Density-based Model (1)
- Dentistry (1)
- Depth profile (1)
- Depth resolved XANES (1)
- Diagnosis (1)
- Diagnostic Antibodies (1)
- Dielectric properties (1)
- Differential scanning calorimetry (1)
- Diffusion/diffusivity (1)
- Diffusons (1)
- Dimorphs (1)
- Dipsersive XAS (1)
- Direct laser interference patterning (1)
- Direct/indirect photolysis (1)
- Disorder (1)
- Disorganized bone (1)
- Dispersive XAS (1)
- Dispersive-XAS (1)
- Ditungsten carbide (1)
- Dodecanethiol (1)
- Domain wall (1)
- Doped ZnO nanostructures (1)
- Double complex compound (1)
- Down Stream Processing (1)
- Drinking water (1)
- Drug Development (1)
- Dry DNA (1)
- Drywood termite (1)
- Dye (1)
- Dye-doped fiber (1)
- Dynamic heterogeneity (1)
- Dynamic light scattering (1)
- Dynamic vapor sorption (1)
- E-aldoximes (1)
- E. coli (1)
- EBSD (1)
- EC definition of a nanomaterial (1)
- EC nanomaterial definition (1)
- EDX (1)
- EIS (1)
- ELISA (1)
- EPMA (Electron Probe Microanalysis) (1)
- ESCA (1)
- ESI-TOF-MS (1)
- ESR (1)
- Earthworms (1)
- Ecotoxicology (1)
- Ectoine DNA protection (1)
- Ectoine UV absorption (1)
- Ectoine hydration (1)
- Ectoine-DNA binding (1)
- Editorial (1)
- Education (1)
- Elastic Crystal (1)
- Elastic membrane (1)
- Elasticity (1)
- Electrical properties (1)
- Electrochemical CO2 conversion (1)
- Electrochemical catalysts (1)
- Electrochemical deposition (ECD) (1)
- Electrochemical immunosensor (1)
- Electrochemical sensing (1)
- Electrochemical treatment (1)
- Electrodes (1)
- Electromagnetic theories (1)
- Electron backscattering diffraction (EBSD) (1)
- Electron spectroscopy (1)
- Electron tomography (1)
- Electronic (1)
- Electrons (1)
- Electrophoresis (1)
- Electrospray (1)
- Electrospun nanocomposite fiber (1)
- Elektrolyse (1)
- Elektronenmikroskopie (1)
- Elemental mapping (1)
- Ellipsometry (1)
- Emergency (1)
- Endocrine disruptor (1)
- Energy dependent XPS (1)
- Energy dispersive X-ray spectroscopy (1)
- Energy materials (1)
- Energy storage (1)
- Enthalpy of solution (1)
- Enthalpy of sublimation (1)
- Entropy (1)
- Environmental Chemistry (1)
- Environmental impacts (1)
- Epitaxy (1)
- Epoxy conversion degree (1)
- Escherichia coli (1)
- Estrogen (1)
- Estrogenic activity of plastic nanoparticles (1)
- Etherification (1)
- Eu (1)
- European Centre (1)
- European funding strategies (1)
- Europium (1)
- Eutectic (1)
- Evaporation (1)
- Evaporite deposits (1)
- Ex-situ (1)
- Excess surface work (1)
- Exchange interaction (1)
- Exchange length (1)
- Excited states (1)
- Experimental setup (1)
- Expert system (1)
- Exploratory analysis (1)
- Exposed metal sites (1)
- Extended X-ray absorption fine structure (1)
- Extended X-ray absorption fine structure (EXAFS), (1)
- Extracellular polymeric substances (1)
- Extrusion (1)
- F pili (1)
- F- doping (1)
- FAIR (1)
- FAIRification (1)
- FAST (1)
- FLASH effect (1)
- FPLC (1)
- FT-IR (1)
- Fabrication parameters (1)
- Facilitated activation (1)
- Fast Scanning Calorimetry (1)
- Fast scanning calormetry (1)
- Fatigue (1)
- Fe (1)
- Fe-Ni oxides (1)
- FeNi (1)
- Femtosecond laser patterning (1)
- Femtosecond laser-processing (1)
- Fenton (1)
- Fenton Reaction (1)
- Fermi resonance (1)
- Ferroelectric (1)
- Ferroelectricity/ferroelectric materials (1)
- Few-layered titanium carbide nanosheets (1)
- Fexible crystals (1)
- Fiber Bragg grating (FBG) (1)
- Fiber toxicology (1)
- Fibre release (1)
- Field of view (1)
- Filter (1)
- Filter crucible (1)
- Filtration (1)
- Flame Retardancy (1)
- Flame retardant (1)
- Flexible (1)
- Flexible waveguide (1)
- Flexural rigidity (1)
- Flow injection immunoassay (1)
- Flow system (1)
- Fluid-flow (1)
- Fluorescent optical fiber (1)
- Fluoride nanoparticles (1)
- Fluorides (1)
- Fluorine (1)
- Fluorine coordination (1)
- Fluorine coordination polymers (1)
- Fluorolytic sol−gel (1)
- Fluorouracil (1)
- Foaming (1)
- Folic acid (1)
- Food (1)
- Food Science (1)
- Force microscopy (1)
- Force-distance-curve (1)
- Formation enthalpy (1)
- Forsterite (1)
- Free electron laser (1)
- Freezing (1)
- Freshwater matrices (1)
- Fs-Laser (1)
- Fuel sorption (1)
- Fuell cells (1)
- Fullerene-Polyglycerol Sulfates (1)
- Fully aromatic frameworks (1)
- Functional properties (1)
- Functionalized nanographene (1)
- Fundamentals (1)
- Fusarium (1)
- GE-XANES (1)
- Gamma (1)
- Gandolfi method (1)
- Gas chromatography (1)
- Gas flow assisted powder deposition (1)
- Gas sensors (1)
- Gas separation (1)
- Gas sorption (1)
- Gastrointestinal barrier (1)
- Gel (1)
- Gel electrolytes (1)
- Gel electrophoresis (1)
- Gene five protein (1)
- General Energy (1)
- General Environmental Science (1)
- General Medicine (1)
- General Physics and Astronomy (1)
- Genotoxic and oxidative damage (1)
- Geology (1)
- Gilding (1)
- Glass Support (1)
- Glass powder (1)
- Glass transition temperature (1)
- Glass-ceramic (1)
- Glasses (1)
- Glucose (1)
- Glue (1)
- Glycan microarray (1)
- Glycerol (1)
- Glycolide (1)
- Goethite (1)
- Governance (1)
- Gradient elution (1)
- Grain boundary engineering (1)
- Grain orientation (1)
- Graphen Oxide (1)
- Graphene Oxide (1)
- Graphene powder (1)
- Graphene related two-dimensional materials (GR2M) (1)
- Graphene template (1)
- Graphene-based polyglycerol sulfates (1)
- Graphene–bacteria interaction (1)
- Graphhene (1)
- Graphite furnace (1)
- Grating (1)
- Grating method (1)
- Grazin exit XANES (1)
- Greek curse tablets (1)
- Green rust (1)
- Grignard reaction (1)
- Grignard-Reaktion (1)
- Guest uptake/release (1)
- Gypsum' SAXS (1)
- H-terminated Si3N4 films (1)
- H2O2 (1)
- H3PO3 (1)
- H3PO4 life cycle (1)
- HERFD-XAS (1)
- HF (1)
- HF-shuttle (1)
- HIgh entropy, (1)
- HKUST-1 (1)
- HR-CS-MAS (1)
- HRMS (1)
- Hairpin (1)
- Halide Perovskites (1)
- Halloysite nanotubes (1)
- Halogen bond (1)
- Halogen bond interaction (1)
- Hard X-ray photoelectron spectroscopy (HAXPES) (1)
- Hard-energy X-ray photoelectron spectroscopy (1)
- Hazard assessment (1)
- Hazardous substances (1)
- Heart attack (1)
- Heat capacity (1)
- Heat diffusion (1)
- Heavy metals (1)
- Helium implantation (1)
- Hematite (1)
- Hexagonally-arranged nano-protrusions (1)
- Hierarchical cluster analysis (1)
- Hierarchical micro-nanostructures (1)
- Hierarchical structures (1)
- Hierarchically porous (1)
- High density polyethylene (1)
- High entropy alloys (1)
- High specific surface area (1)
- High temperature corrosion (1)
- High-Speed Separations (1)
- High-density polyethylene (1)
- High-pressure high-temperature (1)
- High-resolution synchrotron XRF (1)
- High-strength steel (1)
- High-temperature fuel cells (1)
- High-throughput computations (1)
- Highly permeably polynorbornenes (1)
- Histology (1)
- Holzschutzmittel (1)
- Homogenization (1)
- Host–guest systems (1)
- Human Plasma (1)
- Human fibroblast growth factors (1)
- Human umbilical cell adhesion (1)
- Humidity (1)
- Hybrid metrology measurement (1)
- Hydantoin (1)
- Hydration (1)
- Hydrochemical evolution (1)
- Hydrofluorination (1)
- Hydrogen bonding (1)
- Hydrogen cryostorage (1)
- Hydrogen generation (1)
- Hydrogen photoproduction (1)
- Hydrogen storage (1)
- Hydrogenated nanostructures (1)
- Hydrophilic interaction chromatography (1)
- Hydrophobic interaction chromatography (1)
- Hydrophobicity (1)
- Hydroxyl radicals (1)
- INADEQUATE (1)
- IR (1)
- IR spectroscopy; conductometry (1)
- ISO 23173 (1)
- Identification (1)
- IgG determination (1)
- Iinter-laboratory comparison (1)
- Image analysis (1)
- Image reconstruction (1)
- Imaging AES (1)
- Imaging SIMS (1)
- Imaging ellipsometry (1)
- Imidazole (1)
- Immunoassay (1)
- Immunometric assay (1)
- Immunometric biosensor (1)
- Immunosensor (1)
- Impact Sensitivity (1)
- Impact diamonds (1)
- In situ EXAFS (1)
- In situ PXRD (1)
- In situ Raman (1)
- In situ SAXS/WAXS (1)
- In situ X-ray diffraction (1)
- In situ atomic force microscopy (1)
- In situ coupling (1)
- In situ diffraction (1)
- In-situ SAXS/WAXS (1)
- In-situ analysis (1)
- In-situ scattering (1)
- Incipient plasticity (1)
- Indenter area function (1)
- Indium (1)
- Industrial application (1)
- Industrial applications (1)
- Inelastic Neutron Scattering Spectroscopy (1)
- Inelastic background (1)
- Inelastic neutron scattering (1)
- Influenza A virus (1)
- Information Systems (1)
- Infrared nano AFM (1)
- Inlet ionization (1)
- Instrument compliance (1)
- Insulators (1)
- Intensity scale calibration (1)
- Interaction with atmospheres (1)
- Interfacial stability (1)
- Interlaboratory comparability (1)
- Interlaboratory study (1)
- Intermediate phases (1)
- Intermodulation (1)
- Intermodulation-AFM (1)
- Interpenetrating polymer network (1)
- Intrinsic OER activity (1)
- Intrinsically conducting polymers (1)
- Iodine (1)
- Ion beam implantation (1)
- Ion beam therapy (1)
- Ion implantation (1)
- Ion mobility (1)
- Ionic liquid crystal (1)
- Ionic liquid crystalls (1)
- Ionisation (1)
- Ir DNA staining approach (1)
- Iridium compounds (1)
- Iridium-titanium mixed oxides (1)
- Iron carbide (1)
- Iron nanoparticles (1)
- Iron nanophases (1)
- Iron nitride (1)
- Iron oxide films (1)
- Iron reducing bacteria (1)
- Irreversible adsorption (1)
- Isosorbide (1)
- Iterative reconstruction (1)
- Jacobsen-Stockmayer theory (1)
- K-nearest neighbor (1)
- K-rich Birnessite (K0.45MnO2) (1)
- Katalysator (1)
- Kinetics from experiments (1)
- Knock-out mutant (1)
- Knoevenagel condensation (1)
- Knufia petricola (1)
- Kraft Lignin (1)
- L-lactide (1)
- LC-MS (1)
- LC-UV (1)
- LET (1)
- LIFT (1)
- LL equation (1)
- LLG (1)
- Label-free detection (1)
- Lacunae (1)
- Lacunary Keggin ion (1)
- Landau Lifshitz Gilbert equation (1)
- Landau Lifshitz equation (1)
- Landau de-Gennes analysis (1)
- Lanthanides (1)
- Lanthanides doped coordination polymers (1)
- Lanthanoide (1)
- Large area structuring (1)
- Large volume samplers (1)
- Large-pore (1)
- Large-scale processing (1)
- Laser Machining (1)
- Laser cleaning (1)
- Laser damage (1)
- Laser direct writing (1)
- Laser-induced forward transfer (1)
- Laser-induced micro- and nanostructures (1)
- Laser-induced nanostructures (1)
- Laser-induced periodic surface strctures (LIPSS) (1)
- Laser-induced periodic surface structures (1)
- Laser-induced periodic surface structures, LIPSS (1)
- Laser-modified surface (1)
- Laterally-resolved (1)
- Lattice enthalpy (1)
- Lattice misfit (1)
- Layer-by-Layer (1)
- Layer-by-layer deposition (1)
- Lead isotopes (1)
- Lead-free ceramics (1)
- Lewis Acid (1)
- Lewis superacids (1)
- Li-ion battery (1)
- Library and Information Sciences (1)
- Lifetime (1)
- Lifetime analysis (1)
- Ligand exchange (1)
- Ligandsubstitution (1)
- Light concentration (1)
- Light sensitive crystal (1)
- Lignin (1)
- Lignin modification (1)
- Lignosulfonates (1)
- Linear polyglycerol (1)
- Lipids (1)
- Liquid Crystal (1)
- Liquid Crystals (1)
- Liquid chromatography (1)
- Liquid spattering (1)
- Liquid-liquid-phase-separation (1)
- Liquids (1)
- Literature survey (1)
- Lithium-ion battery (1)
- Lithium-sulfur battery (1)
- Local corrosion (1)
- Local structure (1)
- Localised corrosion (1)
- Localized surface plasmon resonance (1)
- Lonic liquid (1)
- Lonsdaleite (1)
- Low-density polyethylene (1)
- Low-density polyethylene (LDPE) (1)
- Luminescent lifetime (1)
- Luminol (1)
- MALDI Imaging MS (1)
- MAPbI3 perovskites (1)
- MAS NMR spectroscopy (1)
- MCC (1)
- MCNP (1)
- MOF databases (1)
- MOF-74 (1)
- MOFs (1)
- MOF´s (1)
- MRT (1)
- MWCNT (1)
- Macrocycles (1)
- Macroion/growth factor assemblies (1)
- Macrophagen (1)
- Magic-sized cluster (1)
- Magnesium alloys (1)
- Magnet coupling (1)
- Magnetic Nanoparticles (1)
- Magnetic alloys (1)
- Magnetic anisotropy (1)
- Magnetic hyperthermia (1)
- Magnetic interacion (1)
- Magnetic moment (1)
- Magnetic nanocatalyst (1)
- Magnetic nanoparticles (1)
- Magnetic properties (1)
- Magnetization dynamics (1)
- Magnetoeleastic couplin (1)
- Magnetometry (1)
- Magnetpartikel (1)
- Maia detector (1)
- MamaLoCA (1)
- MamaLoCa (1)
- Marine corrosion (1)
- Martensite (1)
- Martin Seah (1)
- Mass contents (1)
- Mass spectrometry imaging (1)
- Mass-Spectral Reconstruction (1)
- Material Acceleration Platforms (MAPs) (1)
- Material chemistry (1)
- Material defects (1)
- Material design (1)
- Material science (1)
- Material-binding Peptides (1)
- Materials Properties (1)
- Materials Science (1)
- Materials Stability (1)
- Matrices (1)
- Matter reorganization theories (1)
- Measurement (1)
- Mechanical Properties (1)
- Mechanical Sensitivity (1)
- Mechanical activation (1)
- Mechanical alloying (1)
- Mechanical response (1)
- Mechanical stress (1)
- Mechanically flexible crystals (1)
- Mechanically flexible molecular crystals (1)
- Mechanism (1)
- Mechanochemical oxidation (1)
- Mechanochemical pictographs (1)
- Mechanophotonics (1)
- Medical implants (1)
- Medium entropy alloy (1)
- Melanin Adhesion (1)
- Melting (1)
- Membrane polymers (1)
- Membranes (1)
- Mesocellular foam (1)
- Mesocrystal (1)
- Mesoporous iridium oxide films (1)
- Mesoporous oxides (1)
- Mesoporous phosphate-based glasses (1)
- Mesoporous silica (1)
- Mesoporous thin films (1)
- Metal Organic Frameworks (1)
- Metal and alloys (1)
- Metal carbides (1)
- Metal ions (1)
- Metal nanoparicels (1)
- Metal nanoparticles (1)
- Metal organic frameworks (1)
- Metal oxides (1)
- Metal-organic polyhedra (1)
- Metal-oxides (1)
- Metal-semiconductor (1)
- Metals and alloys (1)
- Metal– organic frameworks (1)
- Metal–organic frameworks (1)
- Metal−organic frameworks (1)
- Methane Oxidation (1)
- Methane removal (1)
- Methane total oxidation (1)
- Methanogen (1)
- Method development (1)
- Methoxytrimethlsilane (1)
- Methyl group rotation (1)
- Metrology in Chemistry and Biology (1)
- Micellar chromatography (1)
- Micelle (1)
- Micro solar cells (1)
- Micro-concentrator solar cell (1)
- MicroXRF (1)
- Microanalysis (1)
- Microarray printing (1)
- Microbial adhesions (1)
- Microbially influenced corrosion (MIC) (1)
- Microbiological Corrosion (1)
- Microbiological influenced corrosion MIC (1)
- Microcracks (1)
- Microdroplet (1)
- Microemulsion (1)
- Microencapsulation (1)
- Microfabrication (1)
- Microfluidic system (1)
- Micromagnetism (1)
- Micromanipulation (1)
- Microplastic analysis (1)
- Microplastic fibers (1)
- Microplastic pathways (1)
- Microplastic pollution (1)
- Microplastics analytic (1)
- Microplastics detection (1)
- Microplastics reference material (1)
- Microporous polymers (1)
- Microstructure Design (1)
- Microstructure-property relations (1)
- Microwave (1)
- Microwave-assisted synthesis (1)
- Mikroplasik (1)
- Mikroplastik Massegehalt (1)
- Mikroplastik-Analyse (1)
- Mikroplastik-Analytik (1)
- Mikroplastik-Massengehalte (1)
- Mild steel (1)
- Mineral tranformation (1)
- Minerals (1)
- Mixed metal oxide (1)
- Mixed-ligand MOFs (1)
- Mixed-linkers (1)
- MoO3 (1)
- Modeling (1)
- Modulus (1)
- Moisture (1)
- Molecular Dynamics (1)
- Molecular Organic Frameworks (1)
- Molecular VOx catalysts (1)
- Molecular beacon (1)
- Molecular mass distribution (1)
- Molecular masses (1)
- Molecular recognition (1)
- Molecule (1)
- Molybdenum (1)
- Monitoring (1)
- Monoclonal Antibodies (1)
- Monoclonal antibodies (1)
- Monolith (1)
- Monolithic column (1)
- Monte-Carlo (1)
- Morphogenesis (1)
- Morphology control (1)
- Multi photon lithography (1)
- Multi-core particles (1)
- Multi-principal element alloys (1)
- Multi-prinicpal element alloys (MPEAs) (1)
- Multi-resistant bacteria (1)
- Multi-sample analysis (1)
- Multicomponent (1)
- Multilayercoatings (1)
- Multimodal (1)
- Multiport (1)
- Multivalency (1)
- Multivariate Statistics (1)
- Multivariate analyses (1)
- Multivariate data analysis (1)
- Mussel-inspired adhesive systems (1)
- Mussel-inspired coating (1)
- Mussel-inspired dendritic polyglycerol (MI-dPG) (1)
- Mussel-inspired materials (1)
- Mutual calibration (1)
- MySpot (1)
- Mycotoxin (1)
- Mössbauer Spectroscopy (1)
- N-Chlorination (1)
- NIR spectroscopy (1)
- NMF (1)
- NMR (1)
- NMR probe Development (1)
- NMR-Spektroskopie (1)
- NaI (1)
- Nafion 117 (1)
- Naica (1)
- Nano CRM (1)
- Nano particles (1)
- Nano structure (1)
- Nano-ceramic-additive-manufacturing photoresin (1)
- Nano-safety (1)
- NanoCAM (1)
- NanoSIMS (1)
- Nanoalloy (1)
- Nanobiointerfaces (1)
- Nanocarrier (1)
- Nanocasting (1)
- Nanocomposite fibers (1)
- Nanoconfinement (1)
- Nanodosimetry (1)
- Nanofibers (1)
- Nanoinformatics (1)
- Nanomaterial analysis (1)
- Nanomaterial categorisation (1)
- Nanomaterial definition (1)
- Nanomaterial legislation (1)
- Nanomaterial regulation (1)
- Nanomechanical charecteisation (1)
- Nanomechanical properties (1)
- Nanomechanics (1)
- Nanometrology (1)
- Nanoparticle characterization (1)
- Nanoparticle structure (1)
- Nanoparticle synthesis (1)
- Nanoparticles with same nominal diameter (1)
- Nanoplatform (1)
- Nanopores (1)
- Nanoporous (1)
- Nanoporous carbon (1)
- Nanopowder (1)
- Nanopropous materials (1)
- Nanorods (1)
- Nanosafety (1)
- Nanoscience (1)
- Nanosecond laser (1)
- Nanosecond laser irradiation (1)
- Nanostructure quantification (1)
- Nanostructured FeOx films (1)
- Nanostructured material (1)
- Nanostructuring (1)
- Nanotechnology (1)
- Nano‐object characterization (1)
- Narrow line method (1)
- Near ambient x-ray photoelectron spectroscopy (1)
- Near edge X-ray absorption fine structure (1)
- Near edge X-ray absorption fine structure spectroscopy (1)
- Near-ambient pressure (1)
- Near-ambient pressure X-ray photoelectron spectroscopy (1)
- Near-field spectroscopy (1)
- Nebulization (1)
- Neel wall (1)
- Neural network (1)
- Neural networks (1)
- Neurotrophins (1)
- Ni (1)
- NiMaGa (1)
- Nickel nanoparticles (1)
- Nitrene[2+1]cycloaddition (1)
- Nitric acid (1)
- Nitrification (1)
- Nitrobenzene reduction (1)
- Nitrogen (1)
- Nm film thickness (1)
- Nobel-metal free electrocatalysis (1)
- Noise in image (1)
- Nomenclature (1)
- Non-classical crystallization (1)
- Non-classical crystallization theory (1)
- Non-destructive ambient analysis (1)
- Non-destructive testing (1)
- Non-negative matrix factorization (1)
- Non-spherical (1)
- Non-spherical nanoparticles (1)
- Nonclassical crystallization (1)
- Noncovalent interactions (1)
- Nondestructive testing techniques (1)
- Nonlinear optics (1)
- Nonporous SiO2 (1)
- Nonspecific binding (NSB) (1)
- Nuclear Energy and Engineering (1)
- Nucleobase (1)
- Numerical models (1)
- OECD (1)
- OH (1)
- OH scavenger (1)
- OMS (1)
- OOMMF (1)
- Object oriented micromagnetic framework (1)
- Ochratoxin A (1)
- Oligonucleotides (1)
- One-part geopolymers (1)
- One-pot synthesis (1)
- Online biosensor (1)
- Open Science (1)
- Open data on zenodo (1)
- Operando (1)
- Ophthalmology (1)
- Optical analysis (1)
- Optical and Magnetic Materials (1)
- Optical assay (1)
- Optical birefringence (1)
- Optical fibers (1)
- Optical near field (1)
- Optical properties (1)
- Optical spectroscopy (1)
- Optical waveguides (1)
- Optically active surfaces (1)
- Oral uptake (1)
- Ordered mesoporous carbon (1)
- Ordered mesoporous silica (1)
- Organic contaminants (1)
- Organic micro-pollutant (1)
- Organic phosphates (1)
- Organic/inorganic block copolymer (1)
- Osmium (1)
- Osmolyte (1)
- Osteogenesis (1)
- Osteoporosis (1)
- Ovariectomy (1)
- Oxocobaltates (1)
- Oxygen Evolution Catalyst (1)
- Oxygen Evolution Reaction (1)
- Oxygen Reduction Reaction (1)
- P-aminothiophenol (1)
- P. Fluorescens (1)
- PBS (1)
- PCCA+ (1)
- PES (1)
- PET (1)
- PGM-free catalyst (1)
- PIFE (1)
- PLA (1)
- PQQ (1)
- PS (1)
- PTFE (1)
- PUR (1)
- PVDF (1)
- PVDF-Based membrane (1)
- PVDF-based membrane (1)
- Pair distribution function (1)
- Paramagnetism (1)
- Partial least square discriminant analysis (PLS-DA) (1)
- Particle Characterization (1)
- Particle accretion (1)
- Particle architecture (1)
- Particle characterisation (1)
- Particle scatterin simulations (1)
- Particle size and shape distribution (1)
- Passive film (1)
- Passive films (1)
- Pb isotopes (1)
- Pelletization (1)
- Pentafluorophosphates (1)
- Pentafluoropyridine (1)
- Peptide (1)
- Peptide Library (1)
- Peptide binder (1)
- Perfluorooctanoic Acid (PFOA) (1)
- Performance check (1)
- Peroxidase (1)
- Pflanzenvirus (1)
- Pharmacy (1)
- Phase mask (1)
- Phase stability (1)
- Phase transformation (1)
- Phase transformations (1)
- Phase transitions (1)
- Phase-contrast microscopy (1)
- Phenolic acid (1)
- Phenolic compounds (1)
- Phonon interactions (1)
- Phosphine oxide (1)
- Phosphinine (1)
- Phosphonate esters (1)
- Phosphorous recovery (1)
- Phosphorus fertilizer (1)
- Phosphorylated Algae (1)
- Phosphorylated lignin (1)
- Phosphotyrosine Biomimetics (1)
- Photo-transformation products (1)
- Photochromism (1)
- Photodegradation (1)
- Photoelectrochemistry (1)
- Photoemission (1)
- Photoluminescence (1)
- Photons (1)
- Photophysics (1)
- Photoreforming (1)
- Photoswitchable monolayers (1)
- Photovoltaics (1)
- Physical aging (1)
- Physical and chemical processes (1)
- Physical and theoretical chemistry (1)
- Physics and Astronomy (miscellaneous) (1)
- Piezoresponse (1)
- Plant virus (1)
- Plasma Polymerization (1)
- Plasma Polymers (1)
- Plasma deposition (1)
- Plasma treatments (1)
- Plasmid DNA (1)
- Plasmon resonance (1)
- Plasmonic nanofocusing (1)
- Plasmonic nanofocusing spectroscopy (1)
- Plasmonic photocatalysis (1)
- Plastic bottles (1)
- Plastic deformation (1)
- Plastic pollution (1)
- Plasticity mechanism (1)
- Plastics (1)
- Platinum group metals (1)
- Platinum-ruthenium colloid (1)
- Polarimetry (1)
- Polarization (1)
- Polarization spectroscopy (1)
- Pollen grains (1)
- Pollution (1)
- Poly(acrylic acid) (1)
- Poly(amino phosphodiester) (1)
- Poly(ether-phosphoramide)s sulfides (1)
- Polyacrylamide (1)
- Polycarbonate-co-dimethylsiloxane copolymer (1)
- Polyclonal Antibodies (1)
- Polyelectrolytes (1)
- Polyelektrolyt (1)
- Polyethylene (1)
- Polyethylene colonization (1)
- Polyethylene glycol (PEG)-grafting antifouling surface (1)
- Polyethylene terephthalate (1)
- Polylactides (1)
- Polymer analysis/characterization (1)
- Polymer based Nanocomposites (1)
- Polymer electrolyte fuel cell (1)
- Polymer film (1)
- Polymer of intrisic microporosity (1)
- Polymer optical fiber (1)
- Polymer-based nanocomposites (1)
- Polymer-binding Peptides (1)
- Polymer-ceramic mixtures (1)
- Polymers and Plastics (1)
- Polymers with intrinsic microporosity (1)
- Polymethyl methacrylate (1)
- Polymorph (1)
- Polymorphs (1)
- Polynorbornes (1)
- Polyoxocation (1)
- Polyoxometalates (1)
- Polypropylene (1)
- Polysaccharides (1)
- Polystyrene (1)
- Polystyrene microparticles (1)
- Polyurethane acetate vinyl acrylate (1)
- Polyurethanes (1)
- Polyvinyl formaldehyde (1)
- Polyvinyl formaldehyde foam (1)
- Pore orientation (1)
- Pore size tailoring (1)
- Pore space (1)
- Porous carbon (1)
- Porous carbons (1)
- Porous thin films (1)
- Position of carboxylate group (1)
- Positron emission tomography (1)
- Post-modification by L-cysteine (1)
- Postfluorination (1)
- Postsynthetic modification (1)
- Powder (1)
- Powdered activated carbon (1)
- Pphosphates (1)
- Prediction (1)
- Prediction relative (1)
- Predictive modelling (1)
- Preferential exclusion (1)
- Preferred orientation (1)
- Presolvated electron (1)
- Primer (1)
- Principal component analysis (PCA) (1)
- Principle component analysis (1)
- Probennahme (1)
- Process analytical technology (1)
- Process control (1)
- Prodrug antibiotic (1)
- Propolis (1)
- Protection housing (1)
- Protein A (1)
- Protein Purification (1)
- Protein Tyrosine Phosphatases (1)
- Protein structure (1)
- Protein-induced fluorescence enhancement (1)
- Proteins (1)
- Protein–DNA filament (1)
- Provenance information (1)
- Proximate analysis (1)
- Prozessanalytik (1)
- Prozesskontrolle (1)
- Pseudo-translationalsublattices (1)
- Pseudomonas aeruginosa (1)
- Pseudomonas fluorescens (1)
- Pulse Laser (1)
- Pulsed laser ablation (1)
- Pump-probe experiments (1)
- Purine P2Y1 receptors (1)
- Purity assessment (1)
- Pyrolysis (1)
- QUASES (1)
- Quantitative XPS (1)
- Quantitative surface chemical analysis (1)
- Quantum Dots (1)
- Quantum dot (1)
- Quantum mechanics (1)
- Quartzite rock (1)
- Quencher (1)
- Quick-XAS (1)
- RAMAN (1)
- RBE (1)
- REDOR (1)
- REPT-HMQC (1)
- RNA (1)
- RXES (1)
- Radiation (1)
- Radical Scavenge (1)
- Radiometabolites (1)
- Radiotherapy (1)
- Raman Spectroscopy (1)
- Raman spectra (1)
- Rapid Analysis (1)
- Rare earth elements separations (1)
- Rat (1)
- Reactions (1)
- Real-time infrared spectroscopy (1)
- Reconstructed ion chromatograms (1)
- Reference Method (1)
- Reference isotherm (1)
- Reference nanoparticles (1)
- Reference spectra (1)
- Regeneration (1)
- Regularization (1)
- Regulation (1)
- Regulatory identification of nanomaterials (1)
- Renewable Energy, Sustainability and the Environment (1)
- Renewable copolymers (1)
- Repelling surface coatings (1)
- Representative morphology modeling (1)
- Resins (1)
- Resolution criterion (1)
- Resonance frequency (1)
- Reverse Monte Carlo (1)
- Rh-Ir alloys (1)
- Rhizopus (1)
- Rhodamine B (1)
- Rhodiumcomplexes (1)
- Rhodonia placenta (1)
- Rice husk ash (1)
- Rigid (1)
- Ring-opening Polymerisation (1)
- Risk asessment (1)
- Risk assessment (1)
- River (1)
- Robocasting (1)
- Robust nano objects (1)
- Robustness (1)
- Round Robin (1)
- SANS (1)
- SARS-CoV 2 (1)
- SARS-CoV-2 nucleocapsid protein (1)
- SARS-CoV2 inhibitor (1)
- SBP (1)
- SEM micrography (1)
- SEM wood characterization (1)
- SEM/EDX (1)
- SKPFM (1)
- SPR (1)
- STEM-in-SEM (1)
- STXM (1)
- SYBR Gold (1)
- SYBR gold (1)
- Sabatier (1)
- Safe-by-design (1)
- Salicylate (1)
- Salicylic acid (1)
- Salt (1)
- Salts (1)
- Sampling (1)
- Sampling techniques (1)
- Saponite (1)
- Sapphire (1)
- Sc-ICP-ToF-MS (1)
- Scaffold (1)
- Scanning Auger Spectroscopy (1)
- Scanning Kelvin probe force microscopy (1)
- Scanning Probe Microscopy (1)
- Scanning electrochemical microscope (SECM) (1)
- Scanning electron microscopy (1)
- Scanning probe microscopy (1)
- Schlangenbohne (1)
- SchwarzP cells (1)
- Second-generation high temperature superconductor technology (1)
- Secondary Ion Mass Spectrometry (1)
- Secondary fluorescence correction (1)
- Secondary hazard (1)
- Sedimentation (1)
- Sedimentation box (SB) (1)
- Segregation Engineering (1)
- Selected area XPS (1)
- Self-assembled monolayers (1)
- Self-assembled monolayers (SAM) (1)
- Self-degrading (1)
- Self-driving-labs (SDLs) (1)
- Self-lubricating coating (1)
- Self-organization (1)
- Semi-interpenetrating networks (1)
- Semiconductor (1)
- Semiconductor nanocrystals (1)
- Semiconductors (1)
- Separability assumption (1)
- Separability condition (1)
- Separate sewer system (1)
- Separation (1)
- Sequential spectroscopic data (1)
- Sers (1)
- Settling velocity (1)
- Shape (1)
- Shape-controlled nanoparticles (1)
- Shape-engineered (1)
- Shape-memory alloys (1)
- Shell (1)
- Short range order (1)
- SiGe (1)
- SiO2 (1)
- Sialic acid (1)
- Silane (1)
- Silanes (1)
- Silica (1)
- Silica gel modification (1)
- Silicone elastomer (1)
- Silk (1)
- Sillver (1)
- Silver (1)
- Simvastatine (1)
- Single cell (1)
- Single crystal (1)
- Single particle (1)
- Single source precursors (1)
- Single-stranded DNA-binding protein (1)
- Singulettsauerstoff (1)
- Sinking velocity (1)
- Sintered Material (1)
- Sintering (1)
- Size measurements (1)
- Slags (1)
- Slicers (1)
- Sliding (1)
- Slurry (1)
- Small-angle X-ray Scattering (1)
- Small-area XPS (1)
- Soda lakes (1)
- Sodium carbonate minerals (1)
- Soft X-ray (1)
- Soft-templated (1)
- Soft-templated mesoporous films (1)
- Software UNIFIT 2022 (1)
- Soil microbial community (1)
- Sol-gel (1)
- Sol-gel processes (1)
- Sol-gel synthesis (1)
- Solar Cell (1)
- Solar concentrator (1)
- Solar energy (1)
- Solarpur (1)
- Solid-binding Peptides (1)
- Solid-phase extraction (SPE) (1)
- Solid-state NMR (1)
- Solution doping (1)
- Solvent-free (1)
- Sonochemical synthesis (1)
- Sorption isotherm (1)
- Sorption mechanism (1)
- Specific Adsorption of N-2 and Kr (1)
- Spectral induced polarization (1)
- Spectroscopic Ellipsometry (1)
- Spectroscopic imaging ellipsometry (1)
- Spectroscopy / Instrumentation (1)
- Spectroscopy / Theory (1)
- Spin (1)
- Spin-lattice coupling (1)
- Spinel (1)
- Spirocyclic (1)
- Spontaneous emulsification (1)
- SrF2 (1)
- SsNMR (1)
- Stabilization (1)
- Stacking fault energy (1)
- Stainless Steel (1)
- Stannosilicates (1)
- Statistical particle distribution (1)
- Statistics (1)
- Statistics and Probability (1)
- Statistics, Probability and Uncertainty (1)
- Steels (1)
- Stereocomplex (1)
- Stimuli-responsive polymers (1)
- Stochastic Landau Lifshitz Gilbert equation (1)
- Stochastic Landau Lifshitz equation (1)
- Stormwater retention tank (1)
- Straight edge method (1)
- Strand break (1)
- Stratagem (1)
- Strategy and Management (1)
- Streptavidin binding (1)
- Strontium titanate (1)
- Structural Analysis (1)
- Structural Materials (1)
- Structural anomalies (1)
- Structural control (1)
- Structural defects (1)
- Structural dynamics (1)
- Structural inhomogenities (1)
- Structural phase transition (1)
- Structural precision (1)
- Structural sealant glazing (1)
- Structure activity relationships (1)
- Structure analysis (1)
- Structure factors (1)
- Structure prediction (1)
- Structure-mechanical property correlation (1)
- Structure-property relationship (1)
- Structures under extreme conditions (1)
- Structure–property correlation (1)
- Sulfated materials (1)
- Sulfates (1)
- Sulfidation (1)
- Sulfur cathodes (1)
- Sulphidation (1)
- Sulphuric acid (1)
- Sunscreen (1)
- Superconductivity (1)
- Supercritical adsorption (1)
- Superior sorbent (1)
- Superparamagnetism (1)
- Supramolecular chemistry (1)
- Supramolecules (1)
- Surface Activation (1)
- Surface Analysis Working Group (1)
- Surface charge (1)
- Surface chemisttry (1)
- Surface plasmon polaritons (1)
- Surface plasmon resonance (1)
- Surface processing (1)
- Surface properties (1)
- Surface regeneration (1)
- Surface species (1)
- Surface structures (1)
- Surface superconductivity (1)
- Surface texture (1)
- Surface-initated grafting (1)
- Surfaces, Coatings and Films (1)
- Suspended organic matter (1)
- Suspended particulate matter (SPM) (1)
- Sustainability (1)
- Sustainable Synthesis (1)
- Sustainable chemisry (1)
- Suzuki-Miyaura coupling (1)
- Swell-capture (1)
- Synchroton x-ray diffraction (1)
- System method (1)
- T-SEM (1)
- TED-GC-MS (1)
- TGA-FTIR (1)
- TGA-MS (1)
- THP(B) (1)
- TKD (1)
- TPU (1)
- TRIP Steel (1)
- TRIS (1)
- TRL (1)
- TTBP-TAZ (1)
- TWIP Steel (1)
- TXRF (1)
- TXRF-XAS (1)
- Tattoo inks (1)
- Technical lignin (1)
- Temeprature scaling (1)
- Temperature effects (1)
- Temperature modulated differential scanning calorimetry (1)
- Temperature-programmed desorption (1)
- Termites (1)
- Ternary zinc alloys (1)
- Terpolymer (1)
- Tesserae (1)
- Test material (1)
- Tetraethyl orthosilicate (1)
- Textile binder (1)
- Thawing (1)
- The MOUSE (1)
- Therapeutic Antibodies (1)
- Therapy (1)
- Thermal analysis (1)
- Thermal annealing (1)
- Thermal desorption mass spectrometry (1)
- Thermal expansion (1)
- Thermal extraction desorption-gas chromatography/mass spectrometry (TED-GC/MS), monitoring (1)
- Thermal extraction-desorption gas chromatography mass spectrometry (1)
- Thermal transport (1)
- Thermally treated sludge (1)
- Thermo-desorption (1)
- Thermo-responsive polymers (1)
- Thermoanalytics (1)
- Thermoanalytik (1)
- Thermoanalytische Verfahren (1)
- Thermochemistry (1)
- Thermography (1)
- Thermogravimetrie (1)
- Thermoresponsive poly(glycidyl ether) coatings (1)
- Thermoresponsive polymer (1)
- Thermoset composition (1)
- Thermosets (1)
- Thickness measurements (1)
- Thin film analysis (1)
- Thin film systems (1)
- Thin mesoporous films (1)
- Thiols (1)
- Thiourea-formaldehyde (1)
- Thumor therapy (1)
- Ti-6Al-4V alloy (1)
- Ti-based colloids (1)
- Ti6Al4V alloys (1)
- Tilting (1)
- Time-of-flight secondary ion mass spectrometry (ToF-SIMS) (1)
- Time-resolved scattering (1)
- Tin catalysts (1)
- Tin(II)octanoate (1)
- Tire Wear (1)
- Tire particles (1)
- Titania (1)
- Titania nanoparticles (1)
- Titanium (1)
- Titanium alloys (1)
- TopasMC (1)
- Topotactic phase transitions (1)
- Total Scattering (1)
- Toxic metals (1)
- Trace organic contaminant (1)
- Traceable nanoparticle size measurements; (1)
- Transformation pathways (1)
- Transition electron microscopy (1)
- Transition metal (1)
- Transition-metal doped (1)
- Transmission Kikuchi Diffraction (TKD) (1)
- Transmission electron microsocpy (1)
- Transmission function IERF (1)
- Transpassive dissolution (1)
- Triazine (1)
- Tribochemistry (1)
- Trinkwasser (1)
- Twin orientation relationship (1)
- Twin-screw extrusion (TSE) (1)
- Two-dimensional chromatography (2D-LC) (1)
- Two-dimensional hexagonal boron nitride(h-BN) (1)
- Two-dimensional off-line coupling (1)
- Two-photon adsorption (1)
- UCST polymers (1)
- UCST-type polymer (1)
- UPLC (1)
- USAXS (1)
- UV absorption (1)
- UV irradiation (1)
- UV photons (1)
- UV protection (1)
- UV-A (1)
- UV-B (1)
- UV-C (1)
- UV-Vis (1)
- UV-irradiation (1)
- UV/VIS (1)
- Ultra-short pulse laser processing (1)
- Ultrashort laser processing (1)
- Ultrashort lasers (1)
- Ultrashort pulse laser processing (1)
- Ultrasonic Nebulization (1)
- Up-cycling (1)
- Upconversion (1)
- Upscaling (1)
- Uptake estimation (1)
- Urban (1)
- VMAAS (1)
- VOx catalyst (1)
- Vacuum ionization (1)
- Van der Waals forces (1)
- Vanadium redox flow battery (1)
- Vanadium speciation (1)
- Variable excitation (1)
- Variable temperature (1)
- Vascular endothelial growth factor (1)
- Vickers hardness (1)
- Vigna unguiculata (1)
- Vinyl monomer (1)
- Virucidality (1)
- Visible light (1)
- Volatiles from thermosets (1)
- Volcano plot (1)
- WAXS (1)
- Washing machine (1)
- Wasseraufbereitung (1)
- Waste water treatment (1)
- Wastewater (1)
- Wastewater flame retardants (1)
- Wastewater treatment (1)
- Water atmosphere (1)
- Water dispersibility (1)
- Water electrolysis (1)
- Water filtration (1)
- Water management (1)
- Water splitting (1)
- Water stability (1)
- Water treatment (1)
- Water/alcohol mixtures (1)
- Weathering (1)
- White light interference microscopy (1)
- White light interferometry microscopy (1)
- White-light Interference Microscopy (1)
- Wide-range (1)
- Wood (1)
- Wood protection (1)
- Workflow (1)
- X-Ray Fluorescence (1)
- X-ray Absorption Spectroscopy (1)
- X-ray Fluorescence (1)
- X-ray absorption Fine Spectroscopy (1)
- X-ray absorption fine structure (1)
- X-ray absorption near edge structure (XANES) (1)
- X-ray and electron diffraction (1)
- X-ray crystal analysis (1)
- X-ray emission (1)
- X-ray emission hazards (1)
- X-ray energies (1)
- X-ray fluorescence (XRF) (1)
- X-ray fluorescence imaging (1)
- X-ray magnetic circular dichroism (XMCD) (1)
- X-ray magnetic circular dichroism (XMCD), (1)
- X-ray microscopy (1)
- X-ray photoelectron (1)
- X-ray spectrometer (1)
- X-ray spectrum (1)
- X-ray tomographic (1)
- XCT (1)
- XPS spctroscopy (1)
- Xerogel (1)
- Xpoxy resin (1)
- Young´s modulus (1)
- Yttrium silicates (1)
- ZCF (1)
- Zearalenone (1)
- Zeolite (1)
- Zeolites (1)
- Zeolithe (1)
- Zeolitic Imidazolate Frameworks (1)
- Zeta potential (1)
- Zinc analysis (1)
- Zinc catalyst (1)
- Zinc phosphate (1)
- Zink phytate (1)
- ZnO films (1)
- ZnO nanorods Nanocrystalline (1)
- ZnSe (1)
- Zwitterion (1)
- [MMIM]+[DMP]− (1)
- abasic side (1)
- analytical service (1)
- base loss (1)
- beta particle (1)
- clustered nanoparticles (1)
- confocal (1)
- corrosion (1)
- dsDNA (1)
- gamma ray (1)
- gold (1)
- high entropy alloys (1)
- lN2 (1)
- layered system (1)
- low energy electrons (1)
- nm films (1)
- oxidation (1)
- oxidative stress (1)
- pH (1)
- pUC19 (1)
- particle scattering (1)
- radiolysis (1)
- ring-expansion polymerization (1)
- scanning electron microscopy (1)
- sulfidation (1)
- temeprature dependent exchange length (1)
- thin film analysis (1)
- transmission mode (1)
- wrapping (1)
- µ-CT (1)
- Ägyptisches Museum Berlin (1)
- Δμ XANES (1)
Organisationseinheit der BAM
- 6 Materialchemie (853) (entfernen)
Paper des Monats
- ja (18)
Concomitant species that appear at the same or very similar times in a mass-spectral analysis can clutter a spectrum because of the coexistence of many analyte-related ions (e.g., molecular ions, adducts, fragments). One method to extract ions stemming from the same origin is to exploit the chemical information encoded in the time domain, where the individual temporal appearances inside the complex structures of chronograms or chromatograms differ with respect to analytes. By grouping ions with very similar or identical time-domain structures, single-component mass spectra can be reconstructed, which are much easier to interpret and are library-searchable. While many other approaches address similar objectives through the Pearson’s correlation coefficient, we explore an alternative method based on a modified cross-correlation algorithm to compute a metric that describes the degree of similarity between features inside any two ion chronograms. Furthermore, an automatic workflow was devised to be capable of categorizing thousands of mass-spectral peaks into different groups within a few seconds. This approach was tested with direct mass-spectrometric analyses as well as with a simple, fast, and poorly resolved LC–MS analysis. Single-component mass spectra were extracted in both cases and were identified based on accurate mass and a mass-spectral library search.
The successful off-line coupling of asymmetrical flow field flow fractionation (AF4) and capillary electrophoresis (CE) for separation of nanoparticles (NPs) with different surface coatings was shown. We could successfully demonstrate that, in a certain NP size range, hyphenation of both techniques significantly improved the separation of differently coated NPs. Three mixtures of polystyrene nanoparticles (PS-NPs) with comparable core sizes but different coatings (no coating/carboxyl-coated) were studied. Separation in either method resulted in non-baseline resolved or non-separated peaks. In contrast, two-dimensional off-line coupling of AF4 and CE resulted in clearly separated regions in their 2 D plots in case of 20 and 50 nm particle mixtures, whereas the 100 nm NP mixture could not be separated at all. Various factors affecting the separation like hydrodynamic diameter or SDS concentration were discussed.
Two sets of polystyrene nanoparticles (PSNPs) with comparable core sizes but different carboxyl group densities were made and separated using asymmetric flow field flow fractionation (AF4), capillary electrophoresis (CE), and the off-line hyphenation of both methods. Our results revealed the significant potential of two-dimensional off-line AF4-CE hyphenation to improve the separation and demonstrated for the first time, the applicability of CE to determine the functional group density of nanoparticles (NPs). Compared to the result acquired with conductometric titration, the result obtained with synthesized 100 nm sized PSNPs revealed only a slight deviation of 1.7%. Commercial 100 nm sized PSNPs yielded a deviation of 4.6 %. For 60 nm sized PSNPs, a larger deviation of 10.6 % between both methods was observed, which is attributed to the lower separation resolution.
The products of thermal decomposition in an argon atmosphere of [Ni(NH3)6]3[Fe(CN)6]2 as a precursor has been studied. Decomposition products were studied up to 800◦C. Above 600◦C, all coordination bonds in the residues are broken with a formation of Ni3Fe, Fe, and free carbon with a small admixture of nitrogen. Elementary carbon can be easily separated from metals by treatment with a water solution of hydrochloric acid. Only carbon is responsible for the specific surface of the composite products. The released carbon has a high degree of graphitization and begins to oxidize in air above 500°C and is completely oxidized above 700°C.
Rare-earth based luminescent materials are key functional components for the rational design of light-conversion smart devices. Stable Eu3+-doped strontium fluoride (SrF2) nanoparticles were prepared at room temperature in ethylene glycol. Their luminescence depends on the Eu content and changes after heat treatment. The crystallinity of heat-treated material increases in comparison with as-synthesized samples. Particles were investigated in solution using X-ray diffraction, small-angle X-ray scattering, and X-ray spectroscopy. After heat treatment, the size of the disordered nanoparticles increases together with a change of their local structure. Interstitial fluoride ions can be localized near Eu3+ ions. Therefore, non-radiative relaxation from other mechanisms is decreased. Knowledge about the cation distribution is key information for understanding the luminescence properties of any material.
Three binary fcc-structured alloys (fcc–Ir0.50Pt0.50, fcc Rh0.66Pt0.33 and fcc–Rh0.50Pd0.50) were 14 prepared from [Ir(NH3)5Cl][PtCl6], [Ir(NH3)5Cl][PtBr6], [Rh(NH3)5Cl]2[PtCl6]Cl2 and 15 [Rh(NH3)5Cl][PdCl4]·H2O, respectively, as single-source precursors. All alloys were prepared by 16 thermal decomposition in gaseous hydrogen flow below 800 °C. Fcc–Ir0.50Pt0.50 and fcc–Rh0.50Pd0.50 17 correspond to miscibility gaps on binary metallic phase diagrams and can be considered as 18 metastable alloys. Detailed comparison of [Ir(NH3)5Cl][PtCl6] and [Ir(NH3)5Cl][PtBr6] crystal 19 structures suggests that two isoformular salts are not isostructural. In [Ir(NH3)5Cl][PtBr6], specific 20 Br…Br interactions are responsible for crystal structure arrangement. Room temperature 21 compressibility of fcc–Ir0.50Pt0.50, fcc–Rh0.66Pt0.33 and fcc–Rh0.50Pd0.50 has been investigated up to 50 GPa 22 in diamond anvil cells. All investigated fcc-structured binary alloys are stable under compression. 23 Atomic volumes and bulk moduli show good agreement with ideal solutions model. For fcc–24 Ir0.50Pt0.50, V0/Z = 14.597(6) Å3·atom-1, B0 = 321(6) GPa, B0' = 6(1); for fcc–Rh0.66Pt0.33, V0/Z = 14.211(3) 25 Å3·atom-1, B0 =259(1) GPa, B0' = 6.66(9); for fcc–Rh0.50Pd0.50, V0/Z = 14.18(2) Å3·atom-1, B0 =223(4) GPa, 26 B0' = 5.0(3).
In this paper we report high-pressure synchrotron x-ray powder diffraction data for the cubic ZrWMoO8. For the first time, extensive structural study of ZrWMoO8 solid solution as a function of pressure was performed. This study shows that disordered cubic-ZrWMoO8 (space group Pa) transforms to ordered cubic-ZrWMoO8 (space group P) at low pressure. A further high-pressure influence leads followed by amorphization of the sample at 2.2 GPa. All transformations are irreversible. Our work will have high impact in the design of new composite materials with well-defined thermal expansion, especially for applications under extreme conditions and high mechanic stress.
A hydrothermal synthesis of ZrW2-xMoxO8 (0 ≤ x ≤ 2) from the corresponding precursors is reported in this paper. High-temperature and high-pressure data are presented for the sample with x = 1.6. An increase in temperature initiates the phase transition from tetragonal precursor to orthorhombic-ZrW2-xMoxO8 (x = 1.6) with the subsequent formation of cubic and trigonal phases. The thermolysis parameter of the disordered cubic ZrW2-xMoxO8 (x = 1.6) phase is 803 K, and the coefficient of thermal expansion is α = -4.6∙10–6 K−1. Data on ZrW2-xMoxO8 (x = 1.6) structure as a function of pressure are obtained for the first time. Pressureinduced changes from cubic to orthorhombic ZrW2-xMoxO8 (x = 1.6) phase at 1.38 GPa are observed. The sample amorphization is irreversible during decompression.
Thermal decomposition of (NH4)2[OsxPt1-xCl6] as single-source precursors for Os-Pt binary alloys has been investigated under ambient and high pressure up to 40 GPa. Thermal decomposition of mixed-metal (NH4)2[OsxPt1-xCl6] precursor in hydrogen atmosphere (reductive environment) under ambient pressure results in formation of β-trans[Pt(NH3)2Cl2] and α-trans-[Pt(NH3)2Cl2] crystalline intermediates as well as single and twophase Os—Pt binary alloys. For the first time, direct thermal decomposition of coordination compound under pressure has been investigated. A formation of pure metallic alloys from single-source precursors under pressure has been shown. Miscibility between fcc- and hcpstructured alloys has been probed up to 50 GPa by in situ high-pressure X-ray diffraction. Miscibility gap between fcc- and hcp-structured alloys does not change its positions with pressure up to at least 50 GPa.
Rhodium(III) octahedral complexes with amine and chloride ligands are the most common starting compounds for preparing catalytically active rhodium(I) and rhodium(III) species. Despite intensive study during the last 100 years, synthesis and crystal structures of rhodium(III) complexes were described only briefly. Some [RhClx(NH3)6-x] compounds are still unknown. In this study, available information about synthetic protocols and the crystal structures of possible [RhClx(NH3)6−x] octahedral species are summarized and critically analyzed. Unknown crystal structuresof(NH4)2[Rh(NH3)Cl5],trans–[Rh(NH3)4Cl2]Cl·H2O,andcis–[Rh(NH3)4Cl2]Clarereported based on high quality single crystal X-ray diffraction data. The crystal structure of [Rh(NH3)5Cl]Cl2 was redetermined. All available crystal structures with octahedral complexes [RhClx(NH3)6-x] were analyzed in terms of their packings and pseudo-translational sublattices. Pseudo-translation lattices suggest face-centered cubic and hexagonal closed-packed sub-cells, where Rh atoms occupy nearly ideal lattices.
Insight of the thermal decomposition of ammonium hexahalogenoiridates(IV) and hexachloroiridate(III)
(2020)
Thermal decomposition of (NH4)3[IrCl6]·H2O, (NH4)2[IrCl6] and (NH4)2[IrBr6] in reductive and inert atmospheres has been investigated in situ using quick-EXAFS and temperature-resolved powder X-ray diffraction. For the first time, (NH4)2[Ir(NH3)Cl5] and (NH4)2[Ir(NH3)Br5] have been proven as intermediates of thermal decomposition of (NH4)3[IrCl6]·H2O, (NH4)2[IrCl6] and (NH4)2[IrBr6]. Thermal degradation of (NH4)2[IrCl6] and (NH4)2[IrBr6] is a more complex process as suggested previously and includes simultaneous formation of (NH4)2[Ir(NH3)Cl5] and (NH4)2[Ir(NH3)Br5] intermediates mixed with metallic iridium. In the inert atmosphere, complexes (NH4)[Ir(NH3)2Cl4] and (NH4)[Ir(NH3)2Br4] as well as [Ir(NH3)3Br3] were proposed as possible intermediates before formation of metallic iridium particles
Comprehensive Characterization of APTES Surface Modifications of Hydrous Boehmite Nanoparticles
(2020)
Hydrous boehmite (γ-AlOOH) nanoparticles (BNP) show great potential as nanoscale filler for the fabrication of fiber reinforced nanocomposite materials. Notably, the particle−matrix interaction has been demonstrated to be decisive for improving the matrix-dominant mechanical properties in the past years. Tailoring the surface properties of the nanofiller enables to selectively design the interaction and thus to exploit the benefits of the nanocomposite in an optimal way. Here, an extensive study is presented on the binding of (3-aminopropyl)triethoxysilane (APTES), a common silane surface modifier, on BNP in correlation to different process parameters (concentration, time, temperature, and pH). Furthermore, a comprehensive characterization of the modified BNP was performed by using elemental analysis (EA), thermogravimetric analysis (TGA) coupled with mass spectrometry (TGA-MS), and Kaiser’s test (KT). The results show an increasing monolayer formation up to a complete surface coverage with rising APTES concentration, time, and temperature, resulting in a maximal grafting density of 1.3 molecules/nm². Unspecific multilayer formation was solely observed under acidic conditions. Comparison of TGA-MS results with data recorded from EA, TGA, and KT verified that TGA-MS is a convenient and highly suitable method to elucidate the ligand binding in detail.
Water vapor sorption surface areas and sorption energies of untreated
and thermally modified Norway spruce [Picea abies (L.) Karst.], sycamore maple (Acer pseudoplatanus L.) and European ash (Fraxinus excelcior L.) were investigated by means of dynamic vapor sorption (DVS) measurements and excess surface work (ESW) evaluation method, respectively. Adsorption and desorption experiments in the hygroscopic range and desorption tests from water saturation were conducted.
Thermodynamically, ESW is the sum of the surface free energy and the isothermal isobaric work of sorption. From the amount adsorbed in the first Minimum a specific surface area similar to the BET surface area can be obtained. The results show that untreated spruce has a significantly higher specific water vapor Sorption surface and sorption energy compared to both hardwoods maple and ash. Thermal modification of the woods leads to a significant reduction of water vapor Sorption surface and sorption energy. The determined surface area and energy are higher in desorption direction than in adsorption direction, whereby the highest values in Desorption direction from water saturation, especially for maple and ash, were obtained.
The surface areas calculated by means of the ESW method are similar to the surface areas calculated by means of the BET method, particularly in adsorption direction.
Luminescence lifetimes are an attractive analytical method for detection due to its high sensitivity and stability. Iridium probes exhibit luminescence with long excited-state lifetimes, which are sensitive to the local environment. Perfluorooctanoic acid (PFOA) is listed as a chemical of high concern regarding its toxicity and is classified as a “forever chemical”. In addition to strict limits on the presence of PFOA in drinking water, environmental contamination from industrial effluent or chemical spills requires rapid, simple, accurate, and cost-effective analysis in order to aid containment. Herein, we report the fabrication and function of a novel and facile luminescence sensor for PFOA based on iridium modified on gold surfaces. These surfaces were modified with lipophilic iridium complexes bearing alkyl chains, namely, IrC6 and IrC12, and Zonyl-FSA surfactant. Upon addition of PFOA, the modified surfaces IrC6-FSA@Au and IrC12-FSA @Au show the largest change in the red luminescence signal with changes in the luminescence lifetime that allow monitoring of PFOA concentrations in aqueous solutions. The platform was tested for the measurement of PFOA in aqueous samples spiked with known concentrations of PFOA and demonstrated the capacity to determine PFOA at concentrations >100 μg/L (240 nM).
Phase transitions are a common phenomenon in condensed matter and act as a critical degree of freedom that can be employed to tailor the mechanical or electronic properties of materials. Understanding the fundamental mechanisms of the thermodynamics and kinetics of phase transitions is, thus, at the core of modern materials design. Conventionally, studies of phase transitions have, to a large extent, focused on pristine bulk phases. However, realistic materials exist in a complex form; their microstructures consist of different point and extended defects. The presence of defects impacts the thermodynamics and kinetics of phase transitions, but has been commonly ignored or treated separately. In recent years, with the significant advances in theoretical and experimental techniques, there has been an increasing research interest in modeling and characterizing how defects impact or even dictate phase transitions. The present review systematically discusses the recent progress in understanding the kinetics of defect-characterized phase transitions, derives the key mechanisms underlying these phase transitions, and envisions the remaining challenges and fruitful research directions. We hope that these discussions and insights will help to inspire future research and development in the field.
Ever more stringent regulations on greenhouse gas emissions from transportation motivate efforts to revisit materials used for vehicles. High-strength aluminium alloys often used in aircrafts could help reduce the weight of automobiles, but are susceptible to environmental degradation. Hydrogen ‘embrittlement’ is often indicated as the main culprit; however, the exact mechanisms underpinning failure are not precisely known: atomic-scale analysis of H inside an alloy remains a challenge, and this prevents deploying alloy design strategies to enhance the durability of the materials. Here we performed near-atomic-scale analysis of H trapped in second-phase particles and at grain boundaries in a high-strength 7xxx Al alloy. We used these observations to guide atomistic ab initio calculations, which show that the co-segregation of alloying elements and H favours grain boundary decohesion, and the strong partitioning of H into the second-phase particles removes solute H from the matrix, hence preventing H embrittlement. Our insights further advance the mechanistic understanding of H-assisted embrittlement in Al alloys, emphasizing the role of H traps in minimizing cracking and guiding new alloy design.
Powdered activated carbon (PAC) for organic micro-pollutant (OMP) removal can be applied effectively on wastewater treatment plant (WWTP) effluents by using re-circulation schemes, accumulating the PAC in the system. This technique is complex because several factors are unknown: (i) the PAC concentration in the system, (ii) specific and average contact times of PAC particles, and (iii) PAC particle loadings with target compounds/competing water constituents. Thus, performance projections (e.g. in the lab) are very challenging. We sampled large-scale PAC plants with PAC sludge re-circulation on eight different WWTPs. The PAC plant-induced OMP removals were notably different, even when considering PAC concentrations in proportion to background organic sum parameters. The variability is likely caused by differing PAC products, varying water composition, differently effective plant/re-circulation operation, and variable biodegradation. Plant PAC samples and parts of the PAC plant influent samples were used in laboratory tests, applying multiples (0.5, 1, 2, 4) of the respective large-scale “fresh” PAC doses, and several fixed contact times (0.5, 1, 2, 4, 48 h). The aimwas to empirically identify suitable combinations of lab PAC dose (as multiples of the plant PAC dose) and contact time, which represent the PAC plant
performances in removing OMPs (for specific OMPs at single locations, and for averages of different OMPs at all locations). E.g., for five well adsorbing, little biodegradable OMPs, plant performances can be projected by using a lab PAC dose of twice the respective full-scale PAC dose and 4 h lab contact time (standard deviation of 13 %-points).
The microstructure of an apatite-wollastonite (code name AP40) glass-ceramic is analyzed in this study by combining 2D microscopy, phase analysis, X-ray absorption and synchrotron X-ray refraction computed tomography (XCT and SXRCT, respectively). It is shown that this combination provides a useful toolbox to characterize the global microstructure in a wide scale range, from sub-micrometer to millimeter. The material displays a complex microstructure comprising a glassy matrix with embedded fluorapatite and wollastonite small crystals. In this matrix, large (up to 200 μm) spike-shaped structures are distributed. Such microstructural features are oriented around a central sphere, thereby forming a structure resembling a sea urchin. A unique feature of SXRCT, in contrast to XCT, is that internal interfaces are visualized; this allows one to show the 3D distribution of these urchins with exceptionally good contrast. Furthermore, it is revealed that the spike-shaped structures are not single crystals, but rather composed of sub-micrometric crystals, which are identified as fluorapatite and diopside phases by SEM-EDX analysis.
Quasielastic neutron scattering by employing a combination of time-of-flight and backscattering techniques is carried out to explore the molecular mobility of a polymer of intrinsic microporosity (PIM-1) at microscopic time scales in comparison with a high-performance polyimide. Molecular fluctuations can change the structure of the temporary network of micropores and open or close pathways for gas molecules. Therefore, the investigation might help to understand the selectivity of PIMs in gas separation processes. The performed neutron scattering experiments provide evidence for a low-temperature relaxation process, which was assigned to methyl group rotation. This methyl group rotation was analyzed in terms of jump diffusion in a three-fold potential. The analysis results in a fraction of methyl groups which are immobilized. For PIM-1 it was found that the fraction of immobilized methyl groups decreases with increasing temperature up to 350 K. At higher temperatures the number of immobilized methyl group increases gain due to an underlying relaxation process. This motional process on a somewhat larger length scale might lead to a reversible structural rearrangement which partially hinders the strongly localized methyl group rotation. In addition, it was found that the activation energy for the methyl group rotation for PIM-1 and the polyimide is significantly higher than for conventional polymers.
Polymers of intrinsic microporosity exhibit a combination of high gas permeability and reasonable permselectivity, which makes them attractive candidates for gas separation membrane materials. The diffusional selective gas transport properties are connected to the molecular mobility of these polymers in the condensed state. Incoherent quasielastic neutron scattering was carried out on two polymers of intrinsic microporosity, PIM-EA-TB(CH3) and its demethylated counterpart PIM-EA-TB(H2), which have high Brunauer–Emmett–Teller surface area values of 1030 m2 g-1 and 836 m2 g-1, respectively. As these two polymers only differ in the presence of two methyl groups at the ethanoanthracene unit, the effect of methyl group rotation can be investigated solely. To cover a broad dynamic range, neutron time-of-flight was combined with neutron backscattering. The demethylated PIM-EA-TB(H2) exhibits a relaxation process with a weak intensity at short times. As the backbone is rigid and stiff this process was assigned to bendand-flex fluctuations. This process was also observed for the PIM-EA-TB(CH3). A further relaxation process is found for PIM-EA-TB(CH3), which is the methyl group rotation. It was analyzed by a jump-diffusion in a three-fold potential considering also the fact that only a fraction of the present hydrogens in PIM-EATB(CH3) participate in the methyl group rotation. This analysis can quantitatively describe the q dependence of the elastic incoherent structure factor. Furthermore, a relaxation time for the methyl group rotation can be extracted. A high activation energy of 35 kJ mol-1 was deduced. This high activation energy evidences a strong hindrance of the methyl group rotation in the bridged PIM-EA-TB(CH3) structure.