4.7 Article

Incorporation of a Guaiacol-Based Small Molecule Guest Donor Enables Efficient Nonfullerene Acceptor-Based Ternary Organic Solar Cells

Journal

SOLAR RRL
Volume 5, Issue 9, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/solr.202100402

Keywords

ternary organic solar cells; low energy loss; open-circuit voltage; power conversion efficiency; small molecules

Funding

  1. Department of Science and Technology (DST), Government of India through the SERI-DST [DST/TMD/SERI/D05]
  2. Shiv Nadar University
  3. DST-FIST [SR/FST/CS-l/2017/13(C)]

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In this study, the introduction of the large bandgap guaiacol-based small molecule (SMD) in ternary organic solar cells improved the power conversion efficiency (PCE) and suppressed energy loss. By optimizing the ternary blend P:SMD:Y6, a higher open circuit voltage (V-OC) and lower energy loss were achieved, leading to an overall PCE of 15.37%.
To improve the power conversion efficiency (PCE) of the organic solar cells (OSCs), it is necessary to widen the absorption profile of the active layer. It is possible by using a ternary active layer consisting of either two donors (D) and one acceptor (A) or two acceptors and one donor having complementary absorption and appropriate frontier energy levels for efficient exciton generation and their dissociation into free charge carriers and subsequent charge/energy transfer. Herein, a large bandgap guaiacol-based small molecule (SMD) is used as guest donor in ternary OSCs to improve the PCE and suppress the energy loss. SMD exhibits a lager bandgap and deeper highest occupied molecular orbital (HOMO) energy level compared with conjugated polymer donor (P). Therefore, the HOMO energy level is effectively down-shifted when P is mixed with SMD, which is beneficial for attaining high open circuit voltage (V-OC). OSCs based on the optimized ternary blend P:SMD:Y6 (0.8:0.2:1.2, w/w) after solvent vapor annealing attained a higher V-OC of 0.85 V and low energy loss of 0.51 eV compared with the binary device P:Y6 (1:1.2, w/w) with V-OC of 0.81 V and energy loss of 0.55 eV, delivering an overall PCE of 15.37%.

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