Suppressed Charge Recombination in Inverted Organic Photovoltaics via Enhanced Charge Extraction by Using a Conductive Fullerene Electron Transport Layer

Chang-Zhi Li, Chih-Yu Chang, Yue Zang, Huan-Xin Ju, Chu-Chen Chueh, Po-Wei Liang, Namchul Cho, David Ginger, Alex K. -Y. Jen
September 2014
Cite DOI

Abstract

Conductive fullerene electron-transporting layers (ETLs) are developed to facilitate the solution processing of highly efficient inverted OSCs with power conversion efficiency (PCE) reaching 9.6%. Its high conductivity also allows devices to be fabricated independently of the ETL thickness (up to ca. 50 nm). Transient photovoltage (TPV) measurements are used to shed light on how these conductive ETLs help suppress charge recombination in solar cells.

Type
Journal article
Publication
ADVANCED MATERIALS
Inverted Organic Solar Cell Recombination Fullerene Electron Transport Layer Transient Photovoltage
David Ginger
David Ginger
B. Seymour Rabinovitch Endowed Chair in Chemistry

David Ginger is the the B. Seymour Rabinovitch Endowed Chair in Chemistry at the University of Washington, and the PI of the ginger group