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Unraveling the surface states related Stokes shift dependent electrocatalytic activity of N-doped carbon quantum dots for photovoltaic applications

Authors
Ali, MumtazAnjum, Aima SameenRiaz, RabiaBibi, AyeshaSun, Kyung ChulJeong, Sung Hoon
Issue Date
Aug-2021
Publisher
Pergamon Press Ltd.
Keywords
Stokes shift; Surface state; Electrocatalysis; Carbon quantum dot; Counter electrode; Dye-sensitized solar cell
Citation
Carbon, v.181, pp 155 - 168
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Carbon
Volume
181
Start Page
155
End Page
168
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/958
DOI
10.1016/j.carbon.2021.04.075
ISSN
0008-6223
1873-3891
Abstract
Modulating the optical properties of carbon quantum dots (CQDs), such as blue to red emission, by varying the surface states is widely used for optical devices. However, the role of surface states in the electrocatalytic activity of CQDs remains incompletely elucidated. In this regard, we modulated the surface states by varying the synthesis solvents to obtain CQDs with varying Stokes shift: blue-, green-, and red-emissive CQDs denoted as BDs, GDs, and RDs, respectively. The electrocatalytic activity of these CQDs were investigated. To prevent aggregation-induced quenching of the electrocatalytic activity and enhance the conductivity, CQDs were grown on carbon nanotubes (CNT), which provide multidimensional charge transport channels. The RDs showed the largest Stokes-shift and better electrocatalytic activity than those of the GDs and BDs. The underlying mechanism for the superior electrocatalytic activity of the RDs was related to their effective band tuning, enhanced surface reactivity, and fast charge transfer. The performance of dye-sensitized solar cells employing RDs-modified CNT as counter electrode is comparable to that of a conventional Pt-based counter electrode.
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