語系:
繁體中文
English
說明(常見問題)
回圖書館首頁
手機版館藏查詢
登入
回首頁
切換:
標籤
|
MARC模式
|
ISBD
Design of electronic devices using r...
~
Kim, Jaejun.
FindBook
Google Book
Amazon
博客來
Design of electronic devices using redox-active organic molecules and their porous coordination networks
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Design of electronic devices using redox-active organic molecules and their porous coordination networks/ by Jaejun Kim.
作者:
Kim, Jaejun.
出版者:
Singapore :Springer Singapore : : 2021.,
面頁冊數:
xiv, 76 p. :ill., digital ;24 cm.
內容註:
1. General Introduction -- 2. Resistive Switching Memory Devices Based on a Redox-active Organic Molecule -- 3. Humidity Detection Based on Redox-active Porous Coordination Networks -- 4. Tunable Electrical Properties of Redox-active Porous Coordination Networks via Post-synthetic Modification -- 5. Summary and Outlook.
Contained By:
Springer Nature eBook
標題:
Organic electronics - Design and construction. -
電子資源:
https://doi.org/10.1007/978-981-16-3907-4
ISBN:
9789811639074
Design of electronic devices using redox-active organic molecules and their porous coordination networks
Kim, Jaejun.
Design of electronic devices using redox-active organic molecules and their porous coordination networks
[electronic resource] /by Jaejun Kim. - Singapore :Springer Singapore :2021. - xiv, 76 p. :ill., digital ;24 cm. - Springer theses,2190-5061. - Springer theses..
1. General Introduction -- 2. Resistive Switching Memory Devices Based on a Redox-active Organic Molecule -- 3. Humidity Detection Based on Redox-active Porous Coordination Networks -- 4. Tunable Electrical Properties of Redox-active Porous Coordination Networks via Post-synthetic Modification -- 5. Summary and Outlook.
This book addresses the development of electronic devices using redox-active organic molecules and their porous coordination networks (PCNs), and highlights the importance of the molecular arrangement. Redox-active organic molecules hold considerable promise as flexible electronic elements, because their electronic state can easily be controlled using external energy. Although various kinds of redox-active organic molecules have been synthesized, attempts to apply them to electronic devices have been limited, owing to the lack of proper structural design. Moreover, ligand-based redox-active PCNs remain largely unexplored because of the limited availability of redox-active ligands. In addition to developing new redox-active organic molecules, in order to design electronic devices based on these molecules/PCNs, it is essential to understand the connections between their molecular arrangement, electrical properties, and redox activity. In this thesis, the redox-active organic molecule 2,5,8-tri(4-pyridyl)1,3-diazaphenalene (TPDAP), which features a large pi plane and multi-intermolecular interactivity, is used to develop a resistive switching memory device. In addition, its PCNs are synthesized to fabricate chemiresistive sensors, and the electrical properties are modulated using post-synthetic modification. Each mechanism is systematically investigated by means of structural determination and well-defined control experiments. Subsequently, the book proposes general guidelines for designing electronic devices using redox-active organic molecules. The book will appeal to a broad range of readers, from basic scientists to materials engineers, as well as general, non-expert readers.
ISBN: 9789811639074
Standard No.: 10.1007/978-981-16-3907-4doiSubjects--Topical Terms:
3513971
Organic electronics
--Design and construction.
LC Class. No.: QC611.8.O7
Dewey Class. No.: 621.381
Design of electronic devices using redox-active organic molecules and their porous coordination networks
LDR
:03104nmm a2200337 a 4500
001
2248986
003
DE-He213
005
20210823074516.0
006
m d
007
cr nn 008maaau
008
220103s2021 si s 0 eng d
020
$a
9789811639074
$q
(electronic bk.)
020
$a
9789811639067
$q
(paper)
024
7
$a
10.1007/978-981-16-3907-4
$2
doi
035
$a
978-981-16-3907-4
040
$a
GP
$c
GP
041
0
$a
eng
050
4
$a
QC611.8.O7
072
7
$a
TJFD
$2
bicssc
072
7
$a
TEC021020
$2
bisacsh
072
7
$a
TJFD
$2
thema
082
0 4
$a
621.381
$2
23
090
$a
QC611.8.O7
$b
K49 2021
100
1
$a
Kim, Jaejun.
$3
3513970
245
1 0
$a
Design of electronic devices using redox-active organic molecules and their porous coordination networks
$h
[electronic resource] /
$c
by Jaejun Kim.
260
$a
Singapore :
$b
Springer Singapore :
$b
Imprint: Springer,
$c
2021.
300
$a
xiv, 76 p. :
$b
ill., digital ;
$c
24 cm.
490
1
$a
Springer theses,
$x
2190-5061
505
0
$a
1. General Introduction -- 2. Resistive Switching Memory Devices Based on a Redox-active Organic Molecule -- 3. Humidity Detection Based on Redox-active Porous Coordination Networks -- 4. Tunable Electrical Properties of Redox-active Porous Coordination Networks via Post-synthetic Modification -- 5. Summary and Outlook.
520
$a
This book addresses the development of electronic devices using redox-active organic molecules and their porous coordination networks (PCNs), and highlights the importance of the molecular arrangement. Redox-active organic molecules hold considerable promise as flexible electronic elements, because their electronic state can easily be controlled using external energy. Although various kinds of redox-active organic molecules have been synthesized, attempts to apply them to electronic devices have been limited, owing to the lack of proper structural design. Moreover, ligand-based redox-active PCNs remain largely unexplored because of the limited availability of redox-active ligands. In addition to developing new redox-active organic molecules, in order to design electronic devices based on these molecules/PCNs, it is essential to understand the connections between their molecular arrangement, electrical properties, and redox activity. In this thesis, the redox-active organic molecule 2,5,8-tri(4-pyridyl)1,3-diazaphenalene (TPDAP), which features a large pi plane and multi-intermolecular interactivity, is used to develop a resistive switching memory device. In addition, its PCNs are synthesized to fabricate chemiresistive sensors, and the electrical properties are modulated using post-synthetic modification. Each mechanism is systematically investigated by means of structural determination and well-defined control experiments. Subsequently, the book proposes general guidelines for designing electronic devices using redox-active organic molecules. The book will appeal to a broad range of readers, from basic scientists to materials engineers, as well as general, non-expert readers.
650
0
$a
Organic electronics
$x
Design and construction.
$3
3513971
650
0
$a
Crystallography.
$3
518393
650
1 4
$a
Optical and Electronic Materials.
$3
891120
650
2 4
$a
Organic Chemistry.
$3
890856
650
2 4
$a
Electronics and Microelectronics, Instrumentation.
$3
893838
650
2 4
$a
Spectroscopy/Spectrometry.
$3
1084899
710
2
$a
SpringerLink (Online service)
$3
836513
773
0
$t
Springer Nature eBook
830
0
$a
Springer theses.
$3
1314442
856
4 0
$u
https://doi.org/10.1007/978-981-16-3907-4
950
$a
Chemistry and Materials Science (SpringerNature-11644)
筆 0 讀者評論
館藏地:
全部
電子資源
出版年:
卷號:
館藏
1 筆 • 頁數 1 •
1
條碼號
典藏地名稱
館藏流通類別
資料類型
索書號
使用類型
借閱狀態
預約狀態
備註欄
附件
W9408289
電子資源
11.線上閱覽_V
電子書
EB QC611.8.O7
一般使用(Normal)
在架
0
1 筆 • 頁數 1 •
1
多媒體
評論
新增評論
分享你的心得
Export
取書館
處理中
...
變更密碼
登入