Filtern
Erscheinungsjahr
Dokumenttyp
- Zeitschriftenartikel (177)
- Vortrag (38)
- Beitrag zu einem Tagungsband (16)
- Posterpräsentation (13)
- Beitrag zu einem Sammelband (9)
- Buchkapitel (2)
Schlagworte
- MALDI-TOF MS (61)
- Polylactide (43)
- Cyclization (26)
- MALDI (21)
- Ring-opening polymerization (17)
- Polycondensation (15)
- MALDI TOF MS (9)
- Mass spectrometry (9)
- Pollen (8)
- Polymerization (8)
- Transesterification (8)
- Polymers (7)
- Ring-expansion polymerization (7)
- Catalyst (6)
- Crystallization (6)
- Ionization (6)
- Polymere (6)
- Catalysts (5)
- Crystalinity (5)
- Isosorbide (5)
- Lactide (5)
- Polyester (5)
- MALDI Massenspektrometrie (4)
- MALDI-TOF mass spectrometry (4)
- Polyesters (4)
- Polylactides (4)
- Biobased polymers (3)
- Bismuth (3)
- Cyclic (3)
- ICP-MS (3)
- Imaging (3)
- Liquid chromatography (3)
- Multivariate statistics (3)
- Polyglycolide (3)
- Polymer (3)
- Polymerisation (3)
- Polyurethane (3)
- ROPPOC (3)
- Ring opening polymerization (3)
- SEC (3)
- Silver nanoparticles (3)
- Small-angle X-ray scattering (3)
- Adsorption (2)
- Amphiphiles (2)
- Biodegradable (2)
- Blends (2)
- Block copolymers (2)
- Catechol (2)
- Chromatographie (2)
- Chromatography (2)
- Conductive carbon tape (2)
- Coupling methods (2)
- Crosslinking (2)
- Crystals (2)
- Cyclopolymerization (2)
- Dispersity (2)
- ESI (2)
- Electrospray ionization (2)
- Epsilon-caprolactone (2)
- FTIR (2)
- Field-flow fractionation (2)
- Isotope dilution analysis (2)
- Kopplung (2)
- Liquid adsorption chromatography (2)
- MALDI mass spectrometry (2)
- MALDI-TOF-MS (2)
- MS/MS (2)
- Macrocycles (2)
- Massenspektrometrie (2)
- Matrix-assisted laser desorption/ionization (2)
- Plasma modification (2)
- Polystyrene (2)
- Polyurethanes (2)
- Principal component analysis (2)
- Reversible addition fragmentation chain transfer (RAFT) (2)
- Ring-opening Polymerization (2)
- SAXS (2)
- Sample preparation (2)
- Sample pretreatment (2)
- Synthesis (2)
- TPU (2)
- Thermal degradation (2)
- Tin acetates (2)
- Tin catalysts (2)
- 2-oxazoline (1)
- A4F (1)
- AET (1)
- AFM (1)
- Abbauverhalten (1)
- Adhesion promoting interlayers (1)
- Adhesion promotion (1)
- Alternating co-poly(ether pyridine)s (1)
- Amphiphilic polymers (1)
- Annealing (1)
- Application (1)
- Aromatic organic compounds, (1)
- Aromatic pollutants (1)
- Artificial weathering (1)
- Aryl iodides (1)
- Asymmetric flow filed-flow fractionation (1)
- Asymmetrical flow field flow fractionation (AF4) (1)
- Attenuated total reflectance-Fourier transorm infrared spectroscopy (1)
- Bewitterung (1)
- Biobased (1)
- Biodegradability (1)
- Biodegradable polyesters (1)
- Biopolymers (1)
- Biosourced isosorbide (1)
- Blockcopolymer (1)
- CRM (1)
- Caco-2 cells (1)
- Caesium (1)
- Capillary electrophoresis (1)
- Capillary electrophoresis (CE) (1)
- Carbon capture (1)
- Carbon fiberepoxy resin laminates (1)
- Carboxyl group (1)
- Catalytic ability (1)
- Cationic ring opening polymerization (1)
- Cationization (1)
- Chain scission (1)
- Chemical conversion of functional groups (1)
- Chemical reduction of functional groups (1)
- Classification (1)
- Click chemistry (1)
- Climate change (1)
- Conjugated oligomers (1)
- Controlled radical polymerization (1)
- Conversion (1)
- Copolyester (1)
- Copolymer composition (1)
- Copolymer sequence (1)
- Copolymeranalytik (1)
- Copolymerization (1)
- Copolymers (1)
- Cotton effect (1)
- Coupling (1)
- Coupling techniques (1)
- Cyclics (1)
- Cyclisation (1)
- Cycloaddition (1)
- Cycloparaphenylenes (1)
- DCTB (1)
- Degradation (1)
- Dendrimers (1)
- Dendrons (1)
- Depollution (1)
- Desorption (1)
- Dried droplet (1)
- Droplet (1)
- Dynamic light scattering (1)
- ESI-Massenspektrometrie (1)
- ESI-TOF MS (1)
- Electron paramagnetic resonance study (1)
- Electrospray (1)
- Electrospray ionization (ESI) (1)
- Epsilon-Caprolactone (1)
- Epsilon-caprolactone (e-CL) (1)
- Equilibration (1)
- Europium (1)
- Feuchte (1)
- Field flow fractionation (1)
- Foldamers (1)
- Fractionation of polymers (1)
- Fragmentierung (1)
- Friction (1)
- Ft-IR (1)
- Functionalized graphene nanoribbons (1)
- Fundamentals (1)
- Glycodendrimers (1)
- Glycolide (1)
- Gradient chromatography (1)
- Gradient elution (1)
- Gradient elution liquid chromatography (GELC) (1)
- Graphene monomers (1)
- Graphene nanoribbons (1)
- Graphene wires (1)
- Green chemistry (1)
- HPLC (1)
- Hafnium (1)
- Heavy metals (1)
- Hexabenzocoronene (1)
- Hierarchical cluster analysis (1)
- Hierarchical self-assembly (1)
- High performance liquid chromatography (1)
- Host–guest systems (1)
- Humidity (1)
- Hybrid nanoparticles (1)
- Hydrolytic degradation (1)
- Hyperbranched polyesters (1)
- Hyphenated techniques (1)
- Imaging MS (1)
- Imaging techniques (1)
- In situ EXAFS (1)
- In situ SAXS/WAXS (1)
- In vitro digestion (1)
- Inductively coupled plasma-mass spectrometry (1)
- Inlet ionization (1)
- Intrinsic viscosity (1)
- Ion mobility (1)
- Ionization mass spectrometry (1)
- Iron oxide nanoparticles (1)
- Irreversible polycondensation (1)
- Isophthalic acid (1)
- Jacobsen-Stockmayer theory (1)
- Klassifizierung (1)
- Kopplungsmethoden (1)
- L-lactide (1)
- LC-MS coupling (1)
- Lactides (1)
- Lacunary Keggin ion (1)
- Lanthanide ions (1)
- Laser-induced redox reactions (1)
- Layer topography (1)
- Lead ions (1)
- Light scattering (LS) (1)
- Linear (1)
- Liquid adsorption chromatography at critical conditions (1)
- Liquid chromatography at critical conditions (1)
- Liquid chromatography under critical conditions (LCCC) (1)
- Lubricant (1)
- MALDI Imaging (1)
- MALDI Imaging MS (1)
- MALDI TOF Massenspektrometrie (1)
- MALDI TOF mass spectrometry (1)
- MALDI-TOF (1)
- MALDI-TOF MS/MS (1)
- MALDI-TOF Mass Spectrometry (1)
- MALDI-TOF Massenspektrometrie (1)
- MALDI-ToF MS (1)
- MOF (1)
- Mass Spectrometry (1)
- Mass spectrometry imaging (1)
- Materials Chemistry (1)
- Matrices (1)
- Matrix segregation (1)
- Matrix-assisted ionization ion mobility spectrometry mass spectrometry (1)
- Matrix-assisted laser desorption (1)
- Matrix-assisted laser desorption/ionization mass spectrometry (MALDI-TOF MS) (1)
- Matrix-assisted laser desorption/ionization-time-of-flight-mass spectrometry (1)
- Mechanism (1)
- Mechanism of polymerization (1)
- Mega-dalton (1)
- Metal ion complexation (1)
- Metal ion-intradendrimer complexes (1)
- Metal triflates (1)
- Metal-polymer interactions (1)
- Metal-polymer systems (1)
- Micro manufacturing (1)
- Microwave (1)
- Moisture (1)
- Molar mass determination (1)
- Molar mass distribution (1)
- Molecular masses (1)
- Molecular recognition (1)
- Morphology (1)
- Multicyclic polymers (1)
- Multiphysics simulations (1)
- Multivariate Analyse (1)
- Multivariate Statistics (1)
- Multivariate analyses (1)
- N-vinyl pyrrolidone (1)
- Nanolithography (1)
- Nanoparticle (1)
- Nanoparticles (1)
- Nanoparticles separation asymetrical flow field flow fractionation (1)
- Nanoparticles with same nominal diameter (1)
- Networks (1)
- Nässe (1)
- Oligoazobenzene (1)
- Oligospiroketals (1)
- On-surface polymerization (1)
- Organic Chemistry (1)
- Oxygen low-pressure plasma treatment of polymers (1)
- PCA (1)
- PET (1)
- Partial least square discriminant analysis (PLS-DA) (1)
- Peel strength (1)
- Pentafluoropyridine (1)
- Phenolic acid (1)
- Phenolic compounds (1)
- Phenyleneethynylenes (1)
- Phosphonate esters (1)
- Photoligation (1)
- Photooxidation (1)
- Photoswitchable (1)
- Plasma (1)
- Plasma polymers with functional groups (1)
- Pollen grains (1)
- Pollenkörner (1)
- Poly(ether-phosphoramide)s sulfides (1)
- Poly(ethylene glycol) (1)
- Poly(ethylene terephthalate) (1)
- Poly(lactide) (1)
- Polyaddition (1)
- Polycaprolactone (1)
- Polycarbonate-co-dimethylsiloxane copolymer (1)
- Polycondensations (1)
- Polyelectrolytes (1)
- Polyethylene (1)
- Polyethylene oxide (1)
- Polyforamidine (1)
- Polykondensation (1)
- Polylaktid (1)
- Polylaktide (1)
- Polymer MALDI (1)
- Polymer blends (1)
- Polymer chromatography (1)
- Polymer film (1)
- Polymer mass spectrometry (1)
- Polymer reference materials (1)
- Polymerization mechanisms (1)
- Polymers and Plastics (1)
- Polyoxometalates (1)
- Polypropylene (1)
- Polysarcosine (1)
- Polyurethan (1)
- Principal component analysis (PCA) (1)
- Quantification (1)
- ROMP (1)
- Raman (1)
- Renewable resources (1)
- Reversible addition/fragmentation chain transfer (RAFT) (1)
- Ring opening polymerization (ROP) (1)
- Ring-opening Polymerisation (1)
- Ring-opening polymerizations (1)
- Salicylate (1)
- Sample loss (1)
- Self-assembly (1)
- Semi-interpenetrating networks (1)
- Silica gel modification (1)
- Size exclusion chromatography (1)
- Size exclusion chromatography (SEC) (1)
- Size-exclusion chromatography (1)
- Sn catalysts (1)
- Soft ionization mass spectrometry (ESI, MALDI) (1)
- Software (1)
- Solvent-free (1)
- Sonoga (1)
- Sorption isotherm (1)
- Sorption mechanism (1)
- Spacers (1)
- Speciation (1)
- Spirocyclic (1)
- Stereocomplex (1)
- Succinic acid (1)
- Sulfobetaines (1)
- Supramolecular chemistry (1)
- Surface analysis (1)
- Surface coating (1)
- Tandem MS (1)
- Target plate material (1)
- Telechelic polyesters (1)
- Thermo-desorption (1)
- Thermochemistry (1)
- Thin polymer layers (1)
- Time of flight (1)
- Tin(II)octanoate (1)
- Toxicity (1)
- Toxicology (1)
- Triazenes (1)
- Two-dimensional off-line coupling (1)
- Two-dimensional-liquid chromatography (2D-LC) (1)
- UPLC (1)
- UV (1)
- UV degradation (1)
- UV radiation (1)
- Ultraschallfalle (1)
- Universal calibration (1)
- Vacuum ionization (1)
- WMRIF (1)
- Water-soluble polymers (1)
- X-ray photoelectron spectroscopy (1)
- Zinc catalyst (1)
- Zyklen (1)
- a2 + b3 polycondensation (1)
- cyclization (1)
- dispersity (1)
- mass spectra (1)
- mass spectrometry (1)
- polycondensation (1)
- polyesters (1)
- polyionic liquids (1)
- r.f. pulsed plasma (1)
- reversible addition fragmentation chain transfer (RAFT) polymerization (1)
- ring-expansion polymerization (1)
- surface modification (1)
Organisationseinheit der BAM
- 6 Materialchemie (84)
- 6.3 Strukturanalytik (84)
- 1 Analytische Chemie; Referenzmaterialien (5)
- 1.2 Biophotonik (2)
- 1.7 Organische Spuren- und Lebensmittelanalytik (2)
- 6.6 Physik und chemische Analytik der Polymere (2)
- 7 Bauwerkssicherheit (2)
- 7.5 Technische Eigenschaften von Polymerwerkstoffen (2)
- 1.0 Abteilungsleitung und andere (1)
- 1.3 Instrumentelle Analytik (1)
Eingeladener Vortrag
- nein (38)
Phase Behaviour of Copolymers Containing Cholesterol and 4,4' Methoxybiphenyl as Mesogenic Group
(1996)
Influence of Chirality on Phase Behaviour of Copolymers Containing Cholesterol as Mesogenic Group
(1996)
RATIONALE
The fast and univocal identification of different species in mixtures of pollen grains is still a challenge. Apart from microscopic evaluation and Raman spectroscopy, no other techniques are available.
METHODS
Matrix-assisted laser desorption/ionization (MALDI) imaging mass spectrometry was applied to the analysis of extracts of single pollen grains and pollen mixtures. Pollen grains were fixed, treated and covered with matrix directly on the MALDI target.
RESULTS
Clearly resolved MALDI ion intensity images could be obtained enabling the identification of single pollen grains in a mixture.
CONCLUSIONS
Our results demonstrate the potential and the suitability of MALDI imaging mass spectrometry as an additional method for the identification of pollen mixtures.
Using 22 metal triflates as catalysts, ε-caprolactone is polymerized at 22 °C in bulk. Only five relatively acidic triflates prove active. Three triflates, including the neutral Sm3+, are active using water as initiator. A very low content of cyclics is found in all the experiments. With Ce3+ and Ce4+, polymerizations are performed in CH2Cl2 and in bulk at 2 °C and 22 °C. Low dispersities (down to 1.1) are obtained. At 22 °C, Ce4+ and, even better, Ce3+ also catalyze syntheses of CO2H- and CH2OH-terminated polycaprolactones, whereby higher dispersities and larger fractions of cyclics are obtained. Further polymerizations and polycondensations are catalyzed with protic acids. The results can be explained by a proton-catalyzed activated monomer mechanism.
L-lactide (LA) was polymerized in toluene by means of neat tin(II) 2-ethylhexanoate (SnOct2). Concentration, time and temperature were varied. The isothermally crystallized polyLAs (PLA) were characterized in the virgin state with regard to topology, molar mass, melting temperature (Tm), crystal modification, high or low Tm morphology, crystallinity and crystal thickness. Even a small amount of solvent favored cyclization relative to polymerization in bulk, so that cyclic polylactides were obtained at 115 ◦C and even at 95 ◦C. At all temperatures the α-modification of PLA was obtained along with crystallinities up to 90%. With 6 M solution the high Tm morphology with Tm’s > 190 ◦C was obtained at 115 ◦C. The crystal thickness of crystallites grown from solution at 115 ◦C was on the average 10–20% higher than that of PLA polymerized in bulk. At a polymerization temperature of 75 ◦C cyclization was incomplete and fewer perfect crystallites were formed. A new hypothesis for the crystal growth of cyclic polyLAs is proposed.
Ring–Ring Equilibration in Solid, Even-Numbered Cyclic Poly(l-lactide)s and their Stereocomplexes
(2020)
Even-numbered cyclic poly(d-lactide) and poly(l-lactide) are prepared by ringexpansion polymerization. The cyclic pol(l-lactide) is annealed either at 120 or at 160 °C for several days. The progress of transesterification in the solid state is monitored by the formation of odd-numbered cycles via matrix-assisted laser desorption/ionization-time of flight mass spectrometry. The changes of the crystallinity are monitored by differential scanning calorimetry, wideand small-angle x-ray scattering (WAXS and SAXS) measurements. Despite total even-odd equilibration at 160 °C, the crystallinity of poly(l-lactide) is not reduced. Furthermore, the crystallinity of the stereocomplexes of both cyclic polylactides do not decrease or vanish, as expected, when a blocky or random stereosequence is formed by transesterification. This conclusion is confirmed by 13C NMR spectroscopy. These measurements demonstrate that transesterification is a ring–ring equilibration involving the loops on the surfaces of the lamellar crystallites thereby improving crystallinity and 3D packing of crystallites without significant broadening of the molecular weight distribution.
Alcohol-initiated ROPs of L-Lactide were performed at 140 ◦C in bulk with variation of the initiator/catalyst ratio and time. Lower ratios favor the formation of cycles which upon annealing display a change of the MALDI mass peak distribution towards a new maximum with a “saw-tooth pattern” of the mass peaks representing the cycles.
Such a pattern was not observed for the mass peak of the linear chains. The coexistence of these patterns indicate that linear and cyclic poly (L-lactide)s (PLA) crystallize in separate crystals, and that the crystallites of the cycles are made up by extended rings. High Tm and ΔHm values confirm that these extended-ring crystallites represent a thermodynamically optimized form of PLA. Experiments with preformed cyclic and linear PLAs support this interpretation.