jz1c03365_si_001.pdf (593.86 kB)
Download fileDirect Observation of the Charge Transfer States from a Non-Fullerene Organic Solar Cell with a Small Driving Force
journal contribution
posted on 2021-10-25, 22:30 authored by Peng Wan, Xingtong Chen, Qi Liu, Sudhi Mahadevan, Mingxuan Guo, Jinjing Qiu, Xiaojuan Sun, Sai-Wing Tsang, Maojie Zhang, Yongfang Li, Song ChenFor
organic solar cells (OSCs), the charge generation mechanism
and the recombination loss are heavily linked with charge transfer
states (CTS). Measuring the energy of CTS (ECT) by the most widely used technique, however, has become
challenging for the non-fullerene-based OSCs with a small driving
force, resulting in difficulty in the understanding of OSC physics.
Herein, we present a study of the PM6:Y6 bulk heterojunction. It is
demonstrated that electro-absorption can not only reveal the dipolar
nature of Y6 but also resolve the morphology-dependent absorption
signal of CTS in the sub-bandgap region. The device with the optimum
blending weight ratio shows an ECT of
1.27 eV, which is confirmed by independent measurements. Because of
the charge transfer characteristics of Y6, the charge generation at
PM6:Y6 interfaces occurs efficiently under a small but non-negligible
driving force of 0.14 eV, and the total recombination loss is as low
as 0.43 eV.
History
Usage metrics
Categories
Keywords
widely used techniqueorganic solar cellsnegligible driving forcecharge transfer statescharge transfer characteristicscharge generation mechanismy6 bulk heterojunctiontotal recombination losssmall driving forcedependent absorption signalct subcharge generationrecombination losse oscs ),osc physicsindependent measurementsheavily linkeddirect observationdipolar naturebecome challengingbased oscsbandgap regionalso resolve>< sub43 ev27 ev14 ev