Your search keyword '"Ke, Chengxuan"' showing total 5 results

1. High-temperature effects for transition state calculations in solids.

Author

Ke, Chengxuan, Nie, Chenxi, and Luo, Guangfu

Subjects

ELECTRONIC excitation, KIRKENDALL effect, TEMPERATURE effect, HIGH temperatures, ACTIVATION energy, SEMICONDUCTOR defects

Abstract

Transition state calculation is a critical technique to understand and predict versatile dynamical phenomena in solids. However, the transition state results obtained at 0 K are often utilized for the prediction or interpretation of dynamical processes at high temperatures, and the error bars of such an approximation are largely unknown. In this benchmark study, all the major temperature effects, including lattice expansion, lattice vibration, electron excitation, and band-edge shift, are evaluated with first-principles calculations for defect diffusion in solids. With the inclusion of these temperature effects, the notable discrepancies between theoretical predictions at 0 K and the experimental diffusivities at high temperatures are dramatically reduced. In particular, we find that lattice expansion and lattice vibration are the dominant factors lowering the defect formation energies and hopping barriers at high temperatures, but the electron excitation exhibits minor effects. In sharp contrast to typical assumptions, the attempt frequency with lattice expansion and vibration varies significantly with materials: several THz for aluminum bulk but surprisingly over 500 THz for 4H-SiC. For defects in semiconductors, the band-edge shift is also significant at high temperatures and plays a vital role in defect diffusion. We expect that this study would help accurately predict the dynamical processes at high temperatures. [ABSTRACT FROM AUTHOR]

Published

2023

2. Iontronic and electrochemical investigations of 2D tellurene in aqueous electrolytes.

Author

Wu, Zongxiao, Qi, Junlei, Wang, Wenbin, Yang, Peng, Ma, Chen, Huang, Haoxin, Bao, Kai, Wu, Jingkun, Ke, Chengxuan, Chen, Ye, Tan, Chaoliang, Repaka, D. V. Maheswar, and He, Qiyuan

Subjects

HYDROGEN evolution reactions, AQUEOUS electrolytes, CHEMICAL vapor deposition, HOLE mobility, CHEMICAL synthesis, SLOPES (Soil mechanics), ELECTROCATALYSIS

Abstract

The remarkable successes of graphene have sparked increasing interest in elemental two‐dimensional (2D) materials, also referred to as Xenes. Due to their chemical simplicity and appealing physiochemical properties, Xenes have shown particular potential for numerous (opto) electronic, iontronic, and energy applications. Among them, layered α‐phase tellurene has demonstrated the most promise, thanks to the recent successes in the chemical synthesis of highly crystalline 2D tellurene. However, the general electronic and electrochemical properties of tellurene in electrolyte systems remain ambiguous, hindering their further development. In this work, we studied the electrostatic gating, electrocatalysis, and electrochemical stability of tellurene in electrolyte systems. Our results show that tellurene obtained from both hydrothermal and chemical vapor deposition methods, two mainstream synthetic approaches for Xenes, demonstrates thickness‐dependent ambipolar transport with high hole mobility and stability in both aqueous electrolytes and ionic liquids. More importantly, the electrochemical properties of tellurene are investigated via the emerging on‐chip electrochemistry. Pristine tellurene demonstrates hydrogen evolution reaction with low Tafel slopes and remarkable electrochemical stability in acidic electrolytes over a large potential window. Our study provides a comprehensive understanding of the iontronic and electrochemical properties of tellurene, paving the way for the broad adoption of Xenes in sensors, synaptic devices, and electrocatalysis. [ABSTRACT FROM AUTHOR]

Published

2024

3. On-chip electrocatalytic microdevices.

Author

Wang, Wenbin, Qi, Junlei, Wu, Zongxiao, Zhai, Wei, Pan, Yanghang, Bao, Kai, Zhai, Li, Wu, Jingkun, Ke, Chengxuan, Wang, Lingzhi, Ding, Mengning, and He, Qiyuan

Published

2023

4. Preparation of 2D Molybdenum Phosphide via Surface‐Confined Atomic Substitution.

Author

Wang, Wenbin, Qi, Junlei, Zhai, Li, Ma, Chen, Ke, Chengxuan, Zhai, Wei, Wu, Zongxiao, Bao, Kai, Yao, Yao, Li, Siyuan, Chen, Bo, Repaka, D. V. Maheswar, Zhang, Xiao, Ye, Ruquan, Lai, Zhuangchai, Luo, Guangfu, Chen, Ye, and He, Qiyuan

Published

2022

5. Substitutional oxygen activated photoluminescence enhancement in monolayer transition metal dichalcogenides.

Author

Zhao, Shilong, Tan, Junyang, Ke, Chengxuan, Feng, Simin, Lai, Yongjue, Ding, Baofu, Luo, Guangfu, Lin, Junhao, and Liu, Bilu

Published

2022