Abstract:
Organic semiconductors (OSCs) are leading materials for next-generation optoelectronic devices. Effective charge transport in devices often requires electronic doping of OSCs. Conventional methods using molecular dopants or metal salts often suffer from poor efficiency, undesirable side products, and require additives and prolonged incubation. Under device operational conditions, these undesirable side products and additives lead to degradation in device performance. Here, an in situ regenerative adduct-assisted (IRAA) doping is presented, which is rapid, metal-ion-free, and requires no additives for dopant stabilization, enabling clean and efficient doping of various OSCs. Spectroscopic analyses reveal a self-regenerating adduct as the active doping species. The simplicity of the doping method and the range of materials available open new avenues for the development of diverse electronic-doping strategies, providing a scalable and universal approach to doping OSC-based hole-transporting layers for various types of optoelectronic devices, including halide perovskite solar cells.