Reducing Depletion Region Width at Electrode Interface via a Hole‐transport Layer for Over 18% Efficiency in Organic Solar Cells

Abstract

AbstractThe large depletion region width at the electrode interface may cause serious energy loss in charge collection of organic solar cells (OSCs), depressing the open‐circuit voltage and power conversion efficiency (PCE). Herein, a pH neutral solution‐processed conjugated polyelectrolyte PIDT‐F:IMC as hole transport layer (HTL) to reduce the depletion region width in efficient OSCs is developed. By utilizing “mutual doping” strategy, the doping density of PIDT‐F:IMC is increased by more than two orders of magnitude, which significantly reduces the depletion region width at the anode interface from 55 to 7.4 nm, playing an effective role in decreasing the energy loss in hole collection. It is also revealed that the optimal thickness of HTL should be consistent with the depletion region width for achieving the minimum energy loss. The OSC modified by PIDT‐F:IMC shows a high PCE of 18.2%, along with an amazing fill factor of 0.79. Moreover, a PCE of 16.5% is achieved in the 1 cm2 OSC by using a blade‐coated PIDT‐F:IMC HTL, indicating the good compatibility of PIDT‐F:IMC with large‐area processing technology. The PIDT‐F:IMC‐modified OCS exhibits a lifetime of 400 h under operational conditions, which is ten times longer than that of the PEDOT:PSS device.