상세 보기
- Choi, Hyeonmin;
- Jung, Joonha;
- Jung, Young-kwang;
- Lee, Seok Woo;
- Kong, Taehyun;
- ... Lee, Bo Ram;
- 외 14명
WEB OF SCIENCE
0SCOPUS
0초록
2D layered tin halide perovskites are promising channel materials for field-effect transistors (FETs) owing to their high carrier mobility and lead-free composition, yet they suffer from severe defect sensitivity arising from facile Sn(II) oxidation. Here, we present a molecular design strategy that directly links passivator chemistry to device-level performance by synthesising a controlled pair of phosphine oxide Lewis bases-triphenylphosphine oxide (TPPO) and its methoxy-functionalised analogue (TMPPO)-to systematically tune Lewis basicity and coordination strength with undercoordinated Sn2 + sites. The stronger Lewis base TMPPO stabilises Sn2 +, yielding a twofold increase in hole mobility (up to 2.2 cm2 V- 1 s- 1), negative threshold voltage shift, reduced hysteresis, and superior operational stability. These findings demonstrate that molecular basicity can be rationally translated into defect control and transistor performance, providing a general design principle for stable, high-performance, lead-free perovskite electronics.
키워드
- 제목
- Strong-Binding Small-Molecule Passivator for Two-Dimensional Tin-Based Perovskite Field-Effect Transistors
- 저자
- Choi, Hyeonmin; Jung, Joonha; Jung, Young-kwang; Lee, Seok Woo; Kong, Taehyun; Kim, Yongjin; Reo, Youjin; Sim, Jinwoo; Kim, Yeeun; Woo, Jaeyong; Ryoo, Sunggyu; Cho, Jaeyoon; Zhang, Youcheng; Pecorario, Stefano; Lee, Bo Ram; Sirringhaus, Henning; Noh, Yong-young; Stranks, Samuel D.; Lee, Takhee; Kang, Keehoon
- 발행일
- 2026-01
- 유형
- Article; Early Access
- 권
- 36
- 호
- 34