Title : Spectroelectrochemical Signatures of Surface Trap Passivation on CdTe Nanocrystals.

Pub. Date : 2018 Nov 13

PMID : 30487664






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1 We elucidate the spectroelectrochemical signatures of trap states within the bandgap and conclude that undercoordinated Te at the surface constitutes the largest contribution to in-gap trap states, but that other surface states that likely originate on Cd atoms should also be considered. Tellurium TRAP Homo sapiens
2 We elucidate the spectroelectrochemical signatures of trap states within the bandgap and conclude that undercoordinated Te at the surface constitutes the largest contribution to in-gap trap states, but that other surface states that likely originate on Cd atoms should also be considered. Tellurium TRAP Homo sapiens