Your search keyword '"Kefan Wang"' showing total 3 results

1. Discrimination of Ribonucleoside Mono-, Di-, and Triphosphates Using an Engineered Nanopore

Author

Yuqin Wang, Pingping Fan, Shanyu Zhang, Liying Wang, Xinyue Li, Wendong Jia, Yao Liu, Kefan Wang, Xiaoyu Du, Panke Zhang, and Shuo Huang

Subjects

General Engineering, General Physics and Astronomy, General Materials Science

Abstract

Ribonucleotides, which widely exist in all living organisms and are essential to both physiological and pathological processes, can naturally appear as ribonucleoside mono-, di-, and triphosphates. Natural ribonucleotides can also dynamically switch between different phosphorylated forms, posing a great challenge for sensing. A specially engineered nanopore sensor is promising for full discrimination of all canonical ribonucleoside mono-, di-, and triphosphates. However, such a demonstration has never been reported, due to the lack of a suitable nanopore sensor that has a sufficient resolution. In this work, we utilized a phenylboronic acid (PBA) modified

Published

2022

2. Machine Learning Assisted Simultaneous Structural Profiling of Differently Charged Proteins in a Mycobacterium smegmatis Porin A (MspA) Electroosmotic Trap

Author

Yao Liu, Kefan Wang, Yuqin Wang, Liying Wang, Shuanghong Yan, Xiaoyu Du, Panke Zhang, Hong-Yuan Chen, and Shuo Huang

Subjects

Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Published

2022

3. Possible Origin of Ferromagnetism in an Undoped ZnO d0 Semiconductor

Author

Gao-feng Zhao, Chengxiao Peng, Yang Zhang, Yong Liang, Yuanxu Wang, and Kefan Wang

Subjects

Materials science, Condensed matter physics, business.industry, Doping, chemistry.chemical_element, Zinc, Hydrogen atom, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, General Energy, Semiconductor, Ferromagnetism, chemistry, Phase (matter), Supercell (crystal), Antiferromagnetism, Physical and Theoretical Chemistry, business

Abstract

First-principles calculations were employed to investigate the effect of native defects and a hydrogen-related defect complex on ferromagnetism in an undoped ZnO semiconductor. The results show that the zinc vacancy (VZn) could lead to a moment of 1.73 μB in the undoped ZnO supercell, while the oxygen vacancy could not, but the formation energy of the zinc vacancy is much higher than that of the oxygen vacancy. When the hydrogen atom is doped in imperfect ZnO, the formation energy of VZn+HI sharply decreases, compared with that of VZn. Meanwhile, the VZn+HI defect complex can induce a 0.99(0.65) μB moment in the Zn15HIO16 supercell. Furthermore, the total energy of the ZnO supercell with two defect complexes for the ferromagnetic phase is lower than that for the antiferromagnetic phase, and the calculated results show that a strong magnetic coupling exists in the ferromagnetic phase. As an unintentionally doped element, H usually appears in ZnO prepared by many methods. So the ferromagnetism in the ZnO d0...

Published

2012