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Revealing Seed‐Mediated Structural Evolution of Copper‐Silicide Nanostructures: Generating Structured Current Collectors for Rechargeable Batteries

Abinaya Sankaran, Nilotpal Kapuria, Sergey Beloshapkin, Syed Abdul Ahad, Shalini Singh, Hugh Geaney, Kevin M. Ryan

2024Advanced Materials11 citationsDOIOpen Access PDF

Abstract

Abstract Metal silicide thin films and nanostructures typically employed in electronics have recently gained significant attention in battery technology, where they are used as active or inactive materials. However, unlike thin films, the science behind the evolution of silicide nanostructures, especially 1D nanowires (NWs), is a key missing aspect. Cu x Si y nanostructures synthesized by solvent vapor growth technique are studied as a model system to gain insights into metal silicide formation. The temperature‐dependent phase evolution of Cu x Si y structures proceeds from Cu>Cu 0.83 Si 0.17 >Cu 5 Si>Cu 15 Si 4 . The role of Cu diffusion kinetics on the morphological progression of Cu silicides is studied, revealing that the growth of 1D metal silicide NWs proceeds through an in situ formed, Cu seed‐mediated, self‐catalytic process. The different Cu x Si y morphologies synthesized are utilized as structured current collectors for K‐ion battery anodes. Sb deposited by thermal evaporation upon Cu 15 Si 4 tripod NWs and cube architectures exhibit reversible alloying capacities of 477.3 and 477.6 mAh g −1 at a C/5 rate. Furthermore, Sb deposited Cu 15 Si 4 tripod NWs anode tested in Li‐ion and Na‐ion batteries demonstrate reversible capacities of ≈518 and 495 mAh g −1 .

Topics & Concepts

Materials scienceCopperNanostructureSilicideCurrent collectorCurrent (fluid)NanotechnologyMetallurgyEngineering physicsSiliconElectrodeElectrical engineeringChemistryPhysical chemistryEngineeringElectrolyteAdvancements in Battery MaterialsZnO doping and propertiesSemiconductor materials and interfaces
Revealing Seed‐Mediated Structural Evolution of Copper‐Silicide Nanostructures: Generating Structured Current Collectors for Rechargeable Batteries | Litcius