高于婷
高于婷 Yu-Ting Kao
babykk0812@gmail.com
2019 BS Tunghai university
Current Job: Micron
王斯坦
王斯坦 Szu-Tan Wang
ybbis1124@yahoo.com.tw
2019 MS Tunghai University
Current Job: 長春化工
13 May 2019, our work “Creation of 3D textured graphene/Si Schottky junction photocathode for enhanced photoelectrochemical efficiency and stability” has been accepted by Advanced Energy Materials
Creation of 3D textured graphene/Si Schottky junction photocathode for enhanced photoelectrochemical efficiency and stability
Che-Kuei Ku, Po-Hsien Wu, Cheng-Chu Chung, Chun-Chi Chen, Kai-Jie Tsai, Hung-Ming Chen, Yu-Cheng Chang, Cheng-Hao Chuang, Chuan-Yu Wei, Cheng-Yen Wen, Tzu-Yao Lin,1 Hsuen-Li Chen, Yen-Shang Wang, Zhe-Yu Lee, Jun-Ru Chang, Chih-Wei Luo, Di-Yan Wang,* Bing Joe Hwang* and Chun-Wei Chen*
https://doi.org/10.1002/aenm.201901022
This work demonstrates a novel three-dimensional pyramid-like graphene/p-Si Schottky junction photocathode for H2 production based on the unique advantages of excellent carrier transport, high transparency and superior corrosion protection of graphene. The formation of graphene/Si Schottky junctions with 3D architecture is a promising approach to improve the performance and durability of Si-based photoelectrochemical systems for water splitting or solar-to-fuel conversion.
25 Apr. 2019, our work “Plasmon-Enhanced Hydrogen Evolution on Specific Facet of Silver Nanocrystals” has been accepted by Chemistry of Materials
Plasmon-Enhanced Hydrogen Evolution on Specific Facet of Silver Nanocrystals
Tsung-Rong Kuo,*ab, Yi-Cheng Lee,c Hung-Lung Chou,*d Chuan-Yu Wei,e Cheng-Yen Wen,e Swathi MG,c Yi-Hsuan Chang,c Xi-Yu Pana and Di-Yan Wang*c
https://doi.org/10.1021/acs.chemmater.9b00652
Hydrogen evolution reaction (HER) from electrocatalytic water splitting is a promising technology to provide clean energy with low environmental impact for the future. In this work, plasmonic silver nanocubes (AgNCs) with (100) facet and silver nanooctahedrons (AgNOs) with (111) facet were applied as the light-harvesting catalysts for enhancing hydrogen production in the plasmon-activated HER electrochemical system. As light harvesters, AgNCs and AgNOs can efficiently absorb light ranging from ultraviolet to near-infrared to generate hot electrons for facilitating electrocatalytic HER. Both AgNCs and AgNOs revealed the light-harvesting capability to improve HER activities with laser irradiation. Moreover, the current densities of AgNOs with (111) facet were higher than those of AgNCs with (100) facet for electrocatalytic HER under irradiations with three different laser wavelengths. The density function theory (DFT) simulations revealed the adsorption energy of the surfaces followed the order Ag(111) < Ag(100), indicating that the hydrogen could be easily desorbed on the Ag(111) surface for HER. Both the experimental HER results and DFT simulations expressed that AgNOs with (111) facet were the excellent light harvesters in this study. Based on the DFT simulations of the H-Ag(111) and H-Ag(100) systems, the findings could be extended to other plasmon-enhanced HER electrochemical systems and would enable electrocatalysts to be tailored at the atomic level.
2019
| 55. | C.-C. Chang, S.-R. Li, H.-L. Chou,* Y.-C. Lee, Shivaraj B. Patil, Y.-S. Lin, C.-C. Chang, Y. J. Chang, and Di-Yan Wang* 2019: Photoactive Earth-Abundant Iron Pyrite Catalysts for Electrocatalytic Nitrogen Reduction Reaction, Small, 2019, 1904723(7pp). (Selected inside front cover) |
| 54. | C.-Y. Lin, S.-S. Li, J.-W. Chang, H.-C. Chia, Y.-Y. Hsiao, C.-J. Su, B.-J. Lian, C.-Y. Wen, S.-K. Huang, W.-R. Wu, Di-Yan Wang, A.-C. Su, C.-W. Chen,* and U-S. Jeng* 2019: Unveiling the Nanoparticle-Seeded Catalytic Nucleation Kinetics of Perovskite Solar Cells by Time-Resolved GIXS, Adv. Func. Mater, 2019, 1902582(10pp). |
| 53. | C.-K. Ku, P.-H. Wu, C.-C. Chung, C.-C. Chen, K.-J. Tsai, H.-M. Chen, Y.-C. Chang, C.-H. Chuang, C.-Y. Wei, C.-Y. Wen, T.-Y. Lin, H.-L. Chen, Y.-S. Wang, Z.-Y. Lee, J.-R. Chang, C.-W. Luo, Di-Yan Wang*, B.-J. Hwang,* and C.-W. Chen* 2019: Creation of 3D Textured Graphene/Si Schottky Junction Photocathode for Enhanced Photo-Electrochemical Efficiency and Stability, Adv. Energy. Mater., 2019, 1901022(9pp). (Selected Back cover) |
| 52. | T.-R. Kuo,* Y.-C. Lee, H.-L. Chou,* Swathi M G, C.-Y. Wei, C.-Y. Wen, Y.-H. Chang, X.-Y. Pan, and Di-Yan Wang* 2019: Plasmon-Enhanced Hydrogen Evolution on Specific Facet of Silver Nanocrystals, Chem. Mater. 2019, 31(10), 3722−3728. |
| 51. | X.-Y. Pan, C.-H. Chen, Y.-H. Chang, Di-Yan Wang, Y.-C. Lee, C.-C. Liou, Y.-X. Wang, C.-C. Hu, and T.-R. Kuo* 2019: Osteoporosis risk assessment using multilayered gold-nanoparticle thin film via SALDI-MS measurement, Anal. Bioanal. Chem., 2019, 411, 2793–2802. |
| 50. | Di-Yan Wang,* S.-K. Huang, H.-J. Liao, Y.-M. Chen, S.-W. Wang, Y.-T. Kao, J.-Y. An, Y.-C. Lee, C.-H. Chuang, Y.-C. Huang, Y.-R. Lu, H.-J. Lin, H.-L. Chou, C.-W. Chen, Y.-H. Lai,* and C.-L. Dong* 2019: Insights into Dynamic Molecular Intercalation Mechanism for Al-C Battery by Operando Synchrotron X-ray Techniques, Carbon, 2019, 146, 528-534. |
| 49. | Y.-C. Chen, H.-L. Chou, J.-C. Lin, Y.-C. Lee, C.-W. Pao, J.-L. Chen, C.-C. Chang, R.-Y. Chi, T.-R. Kuo, C.-W. Lu, and Di-Yan Wang* 2019: Enhanced Luminescence and Stability of Cesium Lead Halide Perovskite CsPbX3 Nanocrystals by Cu2+-Assisted Anion Exchange Reactions, J. Phys. Chem. C, 2019, 123(4), 2353-2360. |
| 48. | C.-C. Chang, Y.-C. Lee, H.-J. Liao, Y.-T. Kao, J.-Y. An, and Di-Yan Wang* 2018: Flexible Hybrid Zn-Ag /Air Battery with Long Cycle Life, ACS Sustainable Chem. Eng., 2019, 7 (2), 2860–2866. |
Shivaraj Patil
Shivaraj Patil
shivpatil93.sp@gmail.com
2021 PhD Tunghai University