top of page
< Back

Electrical Characteristics of the Junction between PEDOT:PSS and Thiophene-Functionalized Silicon Microwires

Author(s):

Jared P. Bruce, Derek R. Oliver, Nathan S. Lewis, Michael S. Freund

Journal:

ACS Applied Materials & Interfaces

Year:

2015

Volume:

7

Pages

27160 - 27166

DOI:

10.1021/acsami.5b07725

Abstract:

Thiophene moieties have been attached to Si microwires (Si MWs) by a two-step chlorination/alkylation reaction method. X-ray photoelectron spectroscopy indicated that saturation of the surface occurred after 30 min of reaction time. Electrical measurements using a standard probe station indicated that the junction between individual thiophene-functionalized Si MWs and the conducting polymer poly(3,4-ethylenedioxythiophene)/poly(styrenesulfonate) (PEDOT:PSS) became more ohmic as more thiophene was added to the MW surface. Under a light-limited current of 20 nA, representative of operation of Si MWs under 1 Sun illumination conditions, the iR loss of thiophene-n-Si MW/PEDOT-PSS contacts was 20 mV, representing an order of magnitude reduction compared with PEDOT-PSS junctions formed with methyl terminated n-Si MWs. Such iR losses are much less than typical catalytic overpotentials for fuel formation, and hence the thiophene-functionalized Si MW contacts will not limit the performance of a Si MW array-based solar fuels device under 1 Sun illumination.

bottom of page