Organic and Hybrid Materials for Photovoltaic and Photonic Applications

Today, there is a huge demand for advanced materials capable of providing technological innovations. Among these, “organic semiconductors” combine the progress of semiconductors and plastic of the last century, becoming the subject of intense industrial and academic research. More recently, organic–...

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Опубликовано: MDPI - Multidisciplinary Digital Publishing Institute 2023
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Online-ссылка:ONIX_20230307_9783036568799_137
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collection Directory of Open Access Books
description Today, there is a huge demand for advanced materials capable of providing technological innovations. Among these, “organic semiconductors” combine the progress of semiconductors and plastic of the last century, becoming the subject of intense industrial and academic research. More recently, organic–inorganic hybrid functional materials have become a potential platform for applications in extremely diverse fields such as optics, microelectronics, transportation, health, energy, and energy storage. The interest in them is explained by the fact that it is possible to combine the best characteristics of both components in a large variety of combinations; in this way, they represent an intriguing class of materials with a large spectrum of applications.This reprint contribution will consider recent developments in the field of organic and hybrid materials in two of the most useful and promising applications of the millennium: photovoltaics and photonics. Multiple aspects of the materials will be taken into consideration, from the synthesis and the photophysical characterization to the application.
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institution Directory of Open Access Books
language eng
publishDate 2023
publishDateRange 2023
publishDateSort 2023
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-981272023-03-07T16:35:28Z Organic and Hybrid Materials for Photovoltaic and Photonic Applications Virgili, Tersilla Pasini, Mariacecilia conjugated polymers Amplified Spontaneous Emission optically pumped laser optical gain active waveguides molecular engineering polymer donors high hole mobility polymer solar cells BODIPY optoelectronics photonics solar cells organic dyes conjugated polyelectrolytes inverted organic solar cells anode interfacial layers organic molecules single crystals molecular packing lasers optical resonators transient absorption spectroscopy stimulated emission nanoparticles mesoparticles cellulose nanocrystals nanocellulose pyrene organic light-emitting material reductive amination nanocellulose functionalization nanocellulose fluorescence organic solar cells green solvents non-halogenated solvents exaction diffusion photoluminescence quenching low-dimensional metal halide perovskite photoluminescence stimulus-responsive elastic property Sn2+-PPHs metal complex UV-Vis XRD and FTIR analyses optical property bandgap analysis Today, there is a huge demand for advanced materials capable of providing technological innovations. Among these, “organic semiconductors” combine the progress of semiconductors and plastic of the last century, becoming the subject of intense industrial and academic research. More recently, organic–inorganic hybrid functional materials have become a potential platform for applications in extremely diverse fields such as optics, microelectronics, transportation, health, energy, and energy storage. The interest in them is explained by the fact that it is possible to combine the best characteristics of both components in a large variety of combinations; in this way, they represent an intriguing class of materials with a large spectrum of applications.This reprint contribution will consider recent developments in the field of organic and hybrid materials in two of the most useful and promising applications of the millennium: photovoltaics and photonics. Multiple aspects of the materials will be taken into consideration, from the synthesis and the photophysical characterization to the application. 2023-03-07T16:35:27Z 2023-03-07T16:35:27Z 2023 book ONIX_20230307_9783036568799_137 9783036568799 9783036568782 https://directory.doabooks.org/handle/20.500.12854/98127 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/6900 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-6878-2 10.3390/books978-3-0365-6878-2 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036568799 9783036568782 190 Basel open access
spellingShingle conjugated polymers
Amplified Spontaneous Emission
optically pumped laser
optical gain
active waveguides
molecular engineering
polymer donors
high hole mobility
polymer solar cells
BODIPY
optoelectronics
photonics
solar cells
organic dyes
conjugated polyelectrolytes
inverted organic solar cells
anode interfacial layers
organic molecules
single crystals
molecular packing
lasers
optical resonators
transient absorption spectroscopy
stimulated emission
nanoparticles
mesoparticles
cellulose nanocrystals
nanocellulose
pyrene
organic light-emitting material
reductive amination
nanocellulose functionalization
nanocellulose fluorescence
organic solar cells
green solvents
non-halogenated solvents
exaction diffusion
photoluminescence quenching
low-dimensional
metal halide perovskite
photoluminescence
stimulus-responsive
elastic property
Sn2+-PPHs metal complex
UV-Vis
XRD and FTIR analyses
optical property
bandgap analysis
Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title_full Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title_fullStr Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title_full_unstemmed Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title_short Organic and Hybrid Materials for Photovoltaic and Photonic Applications
title_sort organic and hybrid materials for photovoltaic and photonic applications
topic conjugated polymers
Amplified Spontaneous Emission
optically pumped laser
optical gain
active waveguides
molecular engineering
polymer donors
high hole mobility
polymer solar cells
BODIPY
optoelectronics
photonics
solar cells
organic dyes
conjugated polyelectrolytes
inverted organic solar cells
anode interfacial layers
organic molecules
single crystals
molecular packing
lasers
optical resonators
transient absorption spectroscopy
stimulated emission
nanoparticles
mesoparticles
cellulose nanocrystals
nanocellulose
pyrene
organic light-emitting material
reductive amination
nanocellulose functionalization
nanocellulose fluorescence
organic solar cells
green solvents
non-halogenated solvents
exaction diffusion
photoluminescence quenching
low-dimensional
metal halide perovskite
photoluminescence
stimulus-responsive
elastic property
Sn2+-PPHs metal complex
UV-Vis
XRD and FTIR analyses
optical property
bandgap analysis
topic_facet conjugated polymers
Amplified Spontaneous Emission
optically pumped laser
optical gain
active waveguides
molecular engineering
polymer donors
high hole mobility
polymer solar cells
BODIPY
optoelectronics
photonics
solar cells
organic dyes
conjugated polyelectrolytes
inverted organic solar cells
anode interfacial layers
organic molecules
single crystals
molecular packing
lasers
optical resonators
transient absorption spectroscopy
stimulated emission
nanoparticles
mesoparticles
cellulose nanocrystals
nanocellulose
pyrene
organic light-emitting material
reductive amination
nanocellulose functionalization
nanocellulose fluorescence
organic solar cells
green solvents
non-halogenated solvents
exaction diffusion
photoluminescence quenching
low-dimensional
metal halide perovskite
photoluminescence
stimulus-responsive
elastic property
Sn2+-PPHs metal complex
UV-Vis
XRD and FTIR analyses
optical property
bandgap analysis
url ONIX_20230307_9783036568799_137