首页|CuInSe2/CuInS2 Ⅱ型核壳结构量子点的构建及高效光电化学电池

CuInSe2/CuInS2 Ⅱ型核壳结构量子点的构建及高效光电化学电池

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环保型CuInSe2量子点具有高消光系数和宽光谱吸收范围,在光电化学催化应用中展现了良好的发展前景.然而,CuInSe2量子点较低的载流子分离能力和严重的界面电荷复合降低了其光电化学性能,制约了其应用.因此,我们设计并合成了具有Ⅱ型能带排列的CuInSe2/CuInS2核/壳结构量子点,以促进载流子分离、减少界面缺陷;进一步通过调节In/Cu前驱体的摩尔比,产生铜空位.光物理性质研究表明,导带电子-铜空位捕获的空穴之间的辐射复合成为主要的复合方式,有效延长了载流子寿命,促进了载流子分离.因此,基于富铜空位的CuInSe2/CuInS2核壳量子点的光阳极获得了~8.0 mA cm-2的最大饱和光电流密度,该性能是当前报道的CISe基量子点光电化学电池中的最高值之一.本工作提供了一种通过表面或内在缺陷的调控来促进光电化学应用中的电荷载流子分离和传输的有效方法.
Constructing type-Ⅱ CulnSe2/CulnS2 core/shell quantum dots for high-performance photoelectrochemical cells
CuInSe2(CISe)quantum dots(QDs)have shown promising applications in photoelectrochemical(PEC)cells due to their nontoxicity,high extinction coefficient,and wide optical absorption range;however,their low PEC performance prevents their applications due to insufficient charge carrier separation and severe charge recombination.Herein,CISe/CuInS2(CISe/CIS)core/shell structured QDs are designed and constructed to promote charge separation and diminish in-terface defects.Afterward,the copper vacancy(Vcu)state of CISe/CIS QDs is enriched by modulating the precursor molar ratios of In/Cu.Therefore,the radiative recombination of the conduction band edge electrons with the Vcu localized holes becomes dominant and prolongs the carrier lifetime compared with intrinsic band-to-band recombination,thus promoting charge separation.Consequently,the Vcu-rich CISe/CIS QD-based photoanode shows a high photocurrent density of 8.0 mA cm-2,which is one of the highest values reported for CISe QD-based PEC cells.This work provides an effective approach for promoting charge carrier separation and trans-fer through surface or intrinsic defect mediation for PEC applications of Ⅰ-Ⅲ-Ⅵ semiconductor nanocrystals.

CuInSe2/CuInS2 core/shell quantum dotsphoto-electrochemical cellscopper vacancycharge separationre-combination

黄征、孟杰、黄菲、余彬彬、王俊峰、杨浴民、宁甲甲、郑恺波、田建军

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Institute for Advanced Materials and Technology,University of Science and Technology Beijing,Beijing 100083,China

Chemical Physics and Nano,Lund University,22100,Lund,Sweden

College of Physics,Jilin University,Changchun 130012,China

CuInSe2/CuInS2 core/shell quantum dots photo-electrochemical cells copper vacancy charge separation re-combination

National Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaBeijing Natural Science FoundationBeijing Natural Science FoundationIndustry-University-Research Cooperative Education of Ministry of EducationIndustry-University-Research Cooperative Education of Ministry of EducationShandong Weiqiao Pioneering Group Company LimitedShandong Weiqiao Pioneering Group Company LimitedSwedish Research CouncilDanish Villum Foundation Experiment GrantSwedish Foundation for International Cooperation in Research and Higher Education

520115301235227213451902019222206122320822205064205258220606429170400BINTECH-KJZX-20220831-09BINTECH-KJZX-20220831-292021-0531950350F2020/1618

2024

10.1007/s40843-023-2690-3

中国科学:材料科学(英文)

中国科学:材料科学(英文)

CSTPCD
ISSN:
年,卷(期):2024.67(1)
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