Presentation at 2015 Association for Clinical and Translational Science Meeting on Machine learning approach to classifying publications along the translational research spectrum
Control of ZnO Crystal Morphology through Face Specific Adsorptionyoucard
Many of the potential applications of ZnO are dependent upon either its overall shape (e.g. piezoelectric devices or LEDs), or the relative ratio of the different ZnO faces (e.g. catalysis). These applications have stimulated renewed interest in controlling the aspect ratio of ZnO crystals during their growth. One promising way to control the aspect ratio of ZnO crystals during hydrothermal growth is via the introduction of small organic molecules. Whilst there have been many studies showing that particular molecules affect ZnO crystal shape, few studies explain exactly how particular molecules influence growth. The overriding goal of the work contained in this thesis is to enhance understanding of how small organic molecules affect ZnO growth surfaces.
Presentation at 2015 Association for Clinical and Translational Science Meeting on Machine learning approach to classifying publications along the translational research spectrum
Control of ZnO Crystal Morphology through Face Specific Adsorptionyoucard
Many of the potential applications of ZnO are dependent upon either its overall shape (e.g. piezoelectric devices or LEDs), or the relative ratio of the different ZnO faces (e.g. catalysis). These applications have stimulated renewed interest in controlling the aspect ratio of ZnO crystals during their growth. One promising way to control the aspect ratio of ZnO crystals during hydrothermal growth is via the introduction of small organic molecules. Whilst there have been many studies showing that particular molecules affect ZnO crystal shape, few studies explain exactly how particular molecules influence growth. The overriding goal of the work contained in this thesis is to enhance understanding of how small organic molecules affect ZnO growth surfaces.