Edited by the academic who first discovered this important phenomenon, Aggregation-Induced Emission is the first book to cover the applications of Aggregation-Induced Emission. This groundbreaking text explores the high-tech applications of AIE materials in optoelectronic devices, chemical sensors, and biological probes. A valuable resource for scientists, physicists, and biological chemists, topics covered include: AIE materials for LEDs and lasers; mechanochromic AIE materials; new chemo- and biosensors based on AIE fluorophores; AIE dye-encapsulated nanoparticles for optical bioimaging; and chiral recognition and enantiomeric excess determination based on AIE.
Aggregation-Induced Emission (AIE) is a novel photophysical phenomenon which offers a new platform APPLICATIONS for researchers to look into the light-emitting processes from luminogen aggregates, from which useful information on structure-property relationships may be collected and mechanistic insights may be gained. The discovery of the AIE effect opens a new avenue for the development of new luminogen materials in the aggregate or solid state. By enabling light emission in the practically useful solid state, AIE has the potential to significantly expand the technological applications of luminescent materials.
Aggregation-Induced Emission: Applications is the first book to explore the high-tech applications
of AIE luminogens, including technological utilizations of AIE materials in the areas of electroluminescence, mechanochromism, chiral recognition, ionic sensing, biomolecule detection, and cell imaging. Potential applications in room temperature phosphorescence, liquid crystals, circularly polarized luminescence, and organic lasing are also introduced in this volume.
Topics covered include:
AIE materials for electroluminescence applications
Liquid crystals with AIE characteristics
Mechanochromic AIE materials
Chiral recognition and enantiomeric differentiation based on AIE
AIE and applications of aryl-substituted pyrrole derivatives
New chemo-/biosensors with AIE-active molecules
AIE luminogens for in vivo functional bioimaging
Applications of AIE materials in biotechnology
This book is essential reading for scientists and engineers who are designing optoelectronic materials and biomedical sensors, and will also be of interest to academic researchers in materials science, physical and synthetic organic chemistry as well as physicists and biological chemists.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Aggregation-Induced Emission (AIE) is a novel photophysical phenomenon which offers a new platform APPLICATIONS for researchers to look into the light-emitting processes from luminogen aggregates, from which useful information on structure-property relationships may be collected and mechanistic insights may be gained. The discovery of the AIE effect opens a new avenue for the development of new luminogen materials in the aggregate or solid state. By enabling light emission in the practically useful solid state, AIE has the potential to significantly expand the technological applications of luminescent materials.
Aggregation-Induced Emission: Applications is the first book to explore the high-tech applications
of AIE luminogens, including technological utilizations of AIE materials in the areas of electroluminescence, mechanochromism, chiral recognition, ionic sensing, biomolecule detection, and cell imaging. Potential applications in room temperature phosphorescence, liquid crystals, circularly polarized luminescence, and organic lasing are also introduced in this volume.
Topics covered include:
AIE materials for electroluminescence applications
Liquid crystals with AIE characteristics
Mechanochromic AIE materials
Chiral recognition and enantiomeric differentiation based on AIE
AIE and applications of aryl-substituted pyrrole derivatives
New chemo-/biosensors with AIE-active molecules
AIE luminogens for in vivo functional bioimaging
Applications of AIE materials in biotechnology
This book is essential reading for scientists and engineers who are designing optoelectronic materials and biomedical sensors, and will also be of interest to academic researchers in materials science, physical and synthetic organic chemistry as well as physicists and biological chemists.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.