Ingenieurwissenschaften und zugeordnete Tätigkeiten
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- 2017 (3) (entfernen)
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- Raman spectroscopy (3) (entfernen)
The process of silicification in plants and the biochemical
effects of silica in plant tissues are largely unknown. To
study the molecular changes occurring in growing cells
that are exposed to higher than normal concentration of
silicic acid, Raman spectra of germinating pollen grains of
three species (Pinus nigra, Picea omorika, and Camellia
japonica) were analyzed in a multivariate classification
approach that takes into account the variation of biochemical
composition due to species, plant tissue structure,
and germination condition. The results of principal
component analyses of the Raman spectra indicate differences
in the utilization of stored lipids, a changed mobilization
of storage carbohydrates in the pollen grain bodies,
and altered composition and/or structure of cellulose of
the developing pollen tube cell walls. These biochemical
changes vary in the different species.
Control of organic polymorph formation: crystallization pathways in acoustically levitated droplets
(2017)
Theoretical and experimental studies indicate that crystal nucleation can take more complex pathways than expected on the ground of the classical nucleation theory. Among these pathways are the formation of pre-nucleation clusters and amorphous precursor phases. A direct in situ observation of the different pathways of nucleation from solution is challenging since the paths can be influenced by heterogeneous nucleation sites, such as container walls. Here, we provide insights into the crystallization process using the in situ combination of an acoustic levitator, Raman spectroscopy, and X-ray scattering. The contactless sample holder enables the observation of homogeneous crystallization processes and the detection of intermediates and final crystalline forms. We provide evidence for the existence of multiple pathways of nucleation based on the investigation of the crystallization of organic molecules from different solvents. Starting from a diluted solution, a supersaturation is reached during the experiment due to the evaporation of the solvent. The highly supersaturated solution reveals different pathways of crystallization. Depending on the degree of supersaturation either the thermodynamically stable or the metastable crystal form is observed.
Structural relaxation phenomena in binary and multicomponent lithium silicate glasses were studied upon irradiation with femtosecond (fs) laser pulses (800 nm central wavelength, 130 fs pulse duration) and subsequent thermal annealing experiments. Depending on the annealing temperature, micro-Raman spectroscopy analyses evidenced different relaxation behaviours, associated to bridging and non-bridging oxygen structures present in the glass network. The results indicate that the mobility of lithium ions is an important factor during the glass modification with fs-laser pulses. Quantitative phase contrast imaging (spatial light interference microscopy) revealed that these fs-laser induced structural modifications are closely related to local changes in the refractive index of the material. The results establish a promising strategy for tailoring fs-laser sensitivity of glasses through structural mobility.