Ionic Conductive Polymers for Electrochemical Devices

Increasing levels of pollution and climate change are pushing the scientific community towards more sustainable solutions for the conversion and storage of energy. This book is dedicated to ionic conductive polymers, fundamental components of devices such as fuel cells (FCs), redox flow batteries (R...

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フォーマット: Online
言語:英語
出版事項: MDPI - Multidisciplinary Digital Publishing Institute 2022
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collection Directory of Open Access Books
description Increasing levels of pollution and climate change are pushing the scientific community towards more sustainable solutions for the conversion and storage of energy. This book is dedicated to ionic conductive polymers, fundamental components of devices such as fuel cells (FCs), redox flow batteries (RFBs), and electrolyzers that can help to significantly decrease the amount of greenhouse gases emission. The book focuses on commercial polymers such as Nafion, a benchmark for proton-conducting membranes, acid doped polybenzimidazole (PBI), or blended membranes containing hyperbranched poly(arylene ether sulfone (PAES)/Linear poly(phenylene oxide) (PPO) as anion exchange membranes (AEMs). Promising and low-cost sulfonated aromatic polymers (SAP), or solid polymer blend electrolytes (SPBEs) based on natural chitosan (CS) and methylcellulose (MC). This book is also reports some strategies to enhance mechanical stability, such as cross-linking (XL), or several techniques, including classical casting methods or electrospinning (ES). I am confident that this book will serve to further stimulate advances in this research area, in both the sectors of membranes and catalysts, the first is essential for the long-term functioning of the system, and the second for a drastic reduction in costs, especially in fuel cells.
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publisher MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-787592024-03-28T03:32:38Z Ionic Conductive Polymers for Electrochemical Devices Narducci, Riccardo electrospinning fibrous morphology relative humidity polymer fibers ionomer fuel cells aromatic-based polymers proton exchange membranes modifications PPSU SPPSU PVA CSPPSU-vinylon PEMFCs proton conductivity electrochemical impedance spectroscopy polymer polybenzimidazole proton exchange membrane phosphoric acid phytic acid phosphotungstic acid polymer blend XRD and FTIR impedance study TNM and LSV CV and EDLC polymer electrolyte Zn-ion conducting ionic liquid ionic conductivity proton exchange membrane fuel cell humidifier membrane electrode assembly polyvinyl alcohol anion exchange membrane hyperbranched polymer alkaline fuel cell blended membranes anion conductivity dimensional stability nafion conductivity oriented morphology recast uncrystallized blend casting SPEEK crosslinking n/a thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general Increasing levels of pollution and climate change are pushing the scientific community towards more sustainable solutions for the conversion and storage of energy. This book is dedicated to ionic conductive polymers, fundamental components of devices such as fuel cells (FCs), redox flow batteries (RFBs), and electrolyzers that can help to significantly decrease the amount of greenhouse gases emission. The book focuses on commercial polymers such as Nafion, a benchmark for proton-conducting membranes, acid doped polybenzimidazole (PBI), or blended membranes containing hyperbranched poly(arylene ether sulfone (PAES)/Linear poly(phenylene oxide) (PPO) as anion exchange membranes (AEMs). Promising and low-cost sulfonated aromatic polymers (SAP), or solid polymer blend electrolytes (SPBEs) based on natural chitosan (CS) and methylcellulose (MC). This book is also reports some strategies to enhance mechanical stability, such as cross-linking (XL), or several techniques, including classical casting methods or electrospinning (ES). I am confident that this book will serve to further stimulate advances in this research area, in both the sectors of membranes and catalysts, the first is essential for the long-term functioning of the system, and the second for a drastic reduction in costs, especially in fuel cells. 2022-02-24T10:35:32Z 2022-02-24T10:35:32Z 2022 book ONIX_20220224_9783036529400_57 9783036529400 9783036529417 https://directory.doabooks.org/handle/20.500.12854/78759 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/4851 https://mdpi.com/books/pdfview/book/4851 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-2940-0 10.3390/books978-3-0365-2940-0 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036529400 9783036529417 176 Basel open access
spellingShingle electrospinning
fibrous morphology
relative humidity
polymer fibers
ionomer
fuel cells
aromatic-based
polymers
proton exchange membranes
modifications
PPSU
SPPSU
PVA
CSPPSU-vinylon
PEMFCs
proton conductivity
electrochemical impedance spectroscopy
polymer
polybenzimidazole
proton exchange membrane
phosphoric acid
phytic acid
phosphotungstic acid
polymer blend
XRD and FTIR
impedance study
TNM and LSV
CV and EDLC
polymer electrolyte
Zn-ion conducting
ionic liquid
ionic conductivity
proton exchange membrane fuel cell
humidifier
membrane electrode assembly
polyvinyl alcohol
anion exchange membrane
hyperbranched polymer
alkaline fuel cell
blended membranes
anion conductivity
dimensional stability
nafion
conductivity
oriented morphology
recast
uncrystallized
blend
casting
SPEEK
crosslinking
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
Ionic Conductive Polymers for Electrochemical Devices
title Ionic Conductive Polymers for Electrochemical Devices
title_full Ionic Conductive Polymers for Electrochemical Devices
title_fullStr Ionic Conductive Polymers for Electrochemical Devices
title_full_unstemmed Ionic Conductive Polymers for Electrochemical Devices
title_short Ionic Conductive Polymers for Electrochemical Devices
title_sort ionic conductive polymers for electrochemical devices
topic electrospinning
fibrous morphology
relative humidity
polymer fibers
ionomer
fuel cells
aromatic-based
polymers
proton exchange membranes
modifications
PPSU
SPPSU
PVA
CSPPSU-vinylon
PEMFCs
proton conductivity
electrochemical impedance spectroscopy
polymer
polybenzimidazole
proton exchange membrane
phosphoric acid
phytic acid
phosphotungstic acid
polymer blend
XRD and FTIR
impedance study
TNM and LSV
CV and EDLC
polymer electrolyte
Zn-ion conducting
ionic liquid
ionic conductivity
proton exchange membrane fuel cell
humidifier
membrane electrode assembly
polyvinyl alcohol
anion exchange membrane
hyperbranched polymer
alkaline fuel cell
blended membranes
anion conductivity
dimensional stability
nafion
conductivity
oriented morphology
recast
uncrystallized
blend
casting
SPEEK
crosslinking
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
topic_facet electrospinning
fibrous morphology
relative humidity
polymer fibers
ionomer
fuel cells
aromatic-based
polymers
proton exchange membranes
modifications
PPSU
SPPSU
PVA
CSPPSU-vinylon
PEMFCs
proton conductivity
electrochemical impedance spectroscopy
polymer
polybenzimidazole
proton exchange membrane
phosphoric acid
phytic acid
phosphotungstic acid
polymer blend
XRD and FTIR
impedance study
TNM and LSV
CV and EDLC
polymer electrolyte
Zn-ion conducting
ionic liquid
ionic conductivity
proton exchange membrane fuel cell
humidifier
membrane electrode assembly
polyvinyl alcohol
anion exchange membrane
hyperbranched polymer
alkaline fuel cell
blended membranes
anion conductivity
dimensional stability
nafion
conductivity
oriented morphology
recast
uncrystallized
blend
casting
SPEEK
crosslinking
n/a
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
url ONIX_20220224_9783036529400_57