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Energy recycling under ambient illumination for internet-of-things using metal/oxide/metal-based colorful organic photovoltaics

Authors
You, Young-JunSaeed, Muhammad AhsanShafian, ShafidahKim, JisooKim, Sang HyeonKim, Sung HyeonKim, KyungkonShim, Jae Won
Issue Date
12-11월-2021
Publisher
IOP PUBLISHING LTD
Keywords
ambient light conditions; colorful organic photovoltaics; interfacial optimization; metal; metal electrode; oxide; solution-processed TiO2
Citation
NANOTECHNOLOGY, v.32, no.46
Indexed
SCIE
SCOPUS
Journal Title
NANOTECHNOLOGY
Volume
32
Number
46
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/136677
DOI
10.1088/1361-6528/ac13e7
ISSN
0957-4484
Abstract
Colorful indoor organic photovoltaics (OPVs) have attracted considerable attention in recent years for their autonomous function in internet-of-things (IoT) devices. In this study, a solution-processed TiO2 layer in a metal-oxide-metal (MOM) color filter electrode is used for light energy recycling in P3HT:ICBA-based indoor OPVs. The MOM electrode allows for tuning of the optical cavity mode to maximize photocurrent production by modulating the thickness of the TiO2 layer in the sandwich structure. This approach preserves the OPVs' optoelectronic properties without damaging the photoactive layer and enables them to display a suitable range of vivid colors. The optimized MOM-OPVs demonstrated an excellent power conversion efficiency (PCE) of 8.8% +/- 0.2%, which is approximately 20% higher than that of reference opaque OPVs under 1000 lx light emitting diode illumination. This can be attributed to the high photocurrent density due to the nonresonant light reflected from metals into the photoactive layer. Additionally, the proposed MOM-OPVs exhibited high external quantum efficiency and large parasitic shunt resistances, leading to improved fill factor and PCE values. Thus, the study's MOM electrode provides excellent feasibility for realizing colorful and efficient indoor OPVs for IoT applications.
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Shim, Jae Won
공과대학 (전기전자공학부)
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