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Composition, Morphology, and Interface Engineering of 3D Cauliflower‐Like Porous Carbon‐Wrapped Metal Chalcogenides as Advanced Electrocatalysts for Quantum Dot‐Sensitized Solar Cells

Akash S. Rasal, Ting‐Ying Lee, Pei‐Yun Kao, Girum Gatechew, Aswandi Wibrianto, Worku Batu Dirersa, Anil V. Ghule, Jia‐Yaw Chang

2022Small16 citationsDOI

Abstract

Abstract Designing a low‐cost, highly efficient, and stable electrocatalyst that can synergistically speed up the reduction of polysulfide electrolytes while operative for long periods in the open air is critical for the practical application of quantum dot‐sensitized solar cells (QDSSCs), but it remains a challenging task. Herein, a simple, straightforward, and two‐step nanocomposite engineering approach that simultaneously combines metallic copper chalcogenides (MC) either Cu 2− x S or Cu 2− x Se with S, N dual‐doped carbon (SNC) sources for devising high‐quality counter electrode (CE) film are reported. First, the hierarchically assembled MC nanostructures are obtained using microwave‐assisted synthesis. Second, these MCs are embedded within an ordered macro–meso–microporous carbon matrix to obtain Cu 2− x S@C or Cu 2− x SeS@C CE. These CEs are demonstrated to have composition dependents crystal structure, surface morphologies, photovoltaic performance, and electrochemical properties. In terms of power conversion efficiency (PCE), the Cu 2− x SeS@C (9.89%) and Cu 2− x S@C‐CE (8.96%) constructed QDSSCs outperform both Cu 2− x Se (8.96%) and Cu 2− x S‐constructed (7.79%) QDSSCs, respectively. The enhanced PCE could be attributed to the synergistic interaction of S and N dopants with MC interfaces that can not only enrich electric conductivity, and a higher surface‐to‐volume ratio but also offers a 3D network for superior charge transport at the interface.

Topics & Concepts

Materials scienceElectrocatalystQuantum dotDopantChemical engineeringAuxiliary electrodeNanocompositeNanoparticleNanotechnologyEnergy conversion efficiencyCarbon fibersMicroporous materialElectrochemistryElectrodeDopingElectrolyteOptoelectronicsComposite materialChemistryPhysical chemistryComposite numberEngineeringAdvanced Photocatalysis TechniquesQuantum Dots Synthesis And PropertiesTiO2 Photocatalysis and Solar Cells