Cited time in webofscience Cited time in scopus

Thin-Film Organic Optoelectronic Devices: Transparent NIR-Selective Photodiodes & Precise Patterning/Stacking

Title
Thin-Film Organic Optoelectronic Devices: Transparent NIR-Selective Photodiodes & Precise Patterning/Stacking
Alternative Title
박막 유기 광전자 소자: 투명 NIR 선택형 포토 다이오드 및 정밀한 패턴/적층법
Author(s)
Juhee Kim
DGIST Authors
Choi, JongminChung, Dae SungKim, Juhee
Advisor
정대성
Co-Advisor(s)
Jongmin Choi
Issued Date
2020
Available Date
2020-06-22T16:02:44Z
Awarded Date
2020-02
Type
Thesis
Description
organic photodiode, NIR-selective, junction engineering, top-illumination, semi-transparent OPD, polymer semiconductor, doping, dedoping, optoelectronic device, transistor
Table Of Contents
List of Contents

Abstract i
List of Contents iv
List of Tables vi
List of Figures vii

Part 1. Fab-compatible processed NIR organic thin-film photodiode with high-performance
Ⅰ. Introduction 2
Ⅱ. Experimental Section 3
2.1 Materials 3
2.2 Device fabrication 3
2.3 Device characterization 4
Ⅲ. Results and Discussions 4
Ⅳ. Conclusion 11
Ⅴ. References 11

Part 2. Narrowband NIR-selective organic thin-film photodiode via rational design of a junction structure
Ⅰ. Introduction 15
Ⅱ. Experimental Section 17
2.1 Materials 17
2.2 Device fabrication 17
2.3 Device characterization 17
Ⅲ. Results and Discussions 18
3.1 Optical design and analyses 18
3.2 Rational design of junction structure of the organic planar heterojunction 20
3.3 Organic photodiode performances 23
Ⅳ. Conclusion 30
Ⅴ. References 30

Part 3. Top-illuminated, transparent NIR-selective organic photodiode via inverted Schottky junction
Ⅰ. Introduction 35
Ⅱ. Experimental Section 36
2.1 Materials 36
2.2 Device fabrication 36
2.3 Device characterization 37
Ⅲ. Results and Discussions 38
Ⅳ. Conclusion 44
Ⅴ. References 45

Part 4. Doping-dedoping interplay for fine patterning/stacking of all-polymer optoelectronic devices
Ⅰ. Introduction 49
Ⅱ. Experimental Section 50
2.1 Materials 50
2.2 Device fabrication 50
2.3 Device characterization 52
Ⅲ. Results and Discussions 52
3.1 All-polymer complementary inverter 52
3.2 All-polymer planar heterojunction photodiode 60
3.3 All-polymer bulk heterojunction ambipolar transistor 62
Ⅳ. Conclusion 64
Ⅴ. References 65
국문요약 69
URI
http://dgist.dcollection.net/common/orgView/200000281527
http://hdl.handle.net/20.500.11750/12001
DOI
10.22677/Theses.200000281527
Degree
Master
Department
Energy Science&Engineering
Publisher
DGIST
Related Researcher
  • 최종민 Choi, Jongmin 에너지공학과
  • Research Interests Advanced Metal Oxides; Colloidal Quantum Dots; Perovskite-Quantum Dot Hybrid Nanomaterials; Photocatalytic Materials
Files in This Item:

There are no files associated with this item.

Appears in Collections:
Department of Energy Science and Engineering Theses Master

qrcode

  • twitter
  • facebook
  • mendeley

Items in Repository are protected by copyright, with all rights reserved, unless otherwise indicated.

BROWSE