Your search keyword '"Han, Peigang"' showing total 3 results

1. Ion‐Dipole Interaction for Self‐Assembled Monolayers: A New Strategy for Buried Interface in Inverted Perovskite Solar Cells.

Author

Wang, Shuanglin, Khan, Danish, Zhou, Wencai, Sui, Yujie, Zhang, Tong, Yu, Guoping, Huang, Yuanmei, Yang, Xiqi, Chen, Xiaoqing, Yan, Hui, Tang, Jun, Yang, Fan, Han, Peigang, Zheng, Zilong, Zhang, Yongzhe, and Tang, Zeguo

Subjects

SOLAR cells, MONOMOLECULAR films, NICKEL oxide, PEROVSKITE, POTASSIUM fluoride, DIPOLE-dipole interactions

Abstract

Nickel oxide (NiOX) has a crucial role in enhancing the efficiency and stability of p‐i‐n inverted perovskite solar cells (PSCs), which hold great potential for commercialization. However, improving contact passivation between perovskites and NiOX is a challenge due to a hindered buried interface. In order to address this issue, self‐assembled monolayers (SAMs) are introduced as a buffer layer to prevent direct contact and non‐radiative recombination. While, the large dipole moment of SAMs increases the work function of NiOX, which is crucial for enhancing hole transport performance, given the low interfacial potential barrier for hole transfer. By a combination of the first‐principles calculations, drive‐level capacitance profiling, and transient absorption spectrum characterization, the understanding of the ion‐dipole interactions and interface passivation mechanism of potassium fluoride (KF) ultra‐thin buffer layer between SAMs and perovskites is provided. The efficiency of inverted PSCs as high as 23.25% is obtained, and the unencapsulated devices kept 90% of initial efficiency following 1400 h aging under nitrogen, which demonstrate remarkable long‐term stability as well. This novel strategy highlights the significance of SAMs dipole moment at the NiOX/perovskites interface and provides a new approach to address buried interfaces for high‐efficiency and long‐term stability in inverted PSCs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vibration‐Enabled Mobility of Liquid Metal.

Author

Handschuh‐Wang, Stephan, Gan, Tiansheng, Wang, Tao, He, Bin, Han, Peigang, Stadler, Florian J., and Zhou, Xuechang

Subjects

LIQUID metals, TARGETED drug delivery, FREQUENCIES of oscillating systems, SOFT robotics, SURFACE structure

Abstract

Directed liquid metal (gallium‐based) manipulation and actuation are paramount for copious applications, including soft robotics, soft electronics, and targeted drug delivery. Although there are several strategies available to achieve mobility of liquid metals in a "wet" environment. Strategies to achieve and improve mobility of liquid metal droplets and puddles in a "dry" environment are scarce and rely on metallophobic surface design or liquid metal marbles. Here, high mobility of Galinstan is elucidated by combining metallophobic surface design and vertical vibrations. Vibration frequencies between 20 and 30 Hz are conducive to droplet movement and threshold inclination angles of 0.5° to 1° are observed upon actuation by these vibrations. The method itself is applicable for a wide range of droplet sizes (30 and 2000 µL) and very robust. The droplet movement typically comprises of periodic receding and advancing of the droplet and commences via a rolling mechanism rather than a gliding mechanism. Finally, it is shown that small (0.5 mm height) obstacles can be traversed by this method, indicating that it can be used in concert with other strategies, such as surface structuring strategies, which open up pathways for mobility and controlled actuation of liquid metal droplets in air. [ABSTRACT FROM AUTHOR]

Published

2024

3. RbPbI3 Seed Embedding in PbI2 Substrate Tailors the Facet Orientation and Crystallization Kinetics of Perovskites.

Author

Yu, Guoping, Huang, Yuanmei, Khan, Danish, Sui, Yujie, Wang, Shuanglin, Yang, Xiqi, Zhou, Wencai, Chang, Kai, Tang, Jun, Chen, Wei, Han, Peigang, and Tang, Zeguo

Published

2024