28 Sep. 2022, Our work “Fast Charge Transfer between Iodide Ions and Delocalized Electron System on the Graphite Surface for Boosting Hydrogen Production” has been accepted by J. Mater. Chem. A
Fast Charge Transfer between Iodide Ions and Delocalized Electron System on the Graphite Surface for Boosting Hydrogen Production. just accepted by J. Mater. Chem. A Shih-Mao Peng,1 Shivaraj B. Patil,1 Chun-Chih Chang,2 Shu-Ting Chang,1 Yi-…
Read more »29 Jun. 2022, our work “Studies of High-Membered Two-Dimensional Ruddlesden-Popper Cs7Pb6I19 Perovskite Nanosheets via Kinetically Controlled Reactions” has been accepted by Mater. Horiz.
Studies of High-Membered Two-Dimensional Ruddlesden-Popper Cs7Pb6I19 Perovskite Nanosheets via Kinetically Controlled Reactions Yi-Chia Chen, Kuan-Chang Wu, Hsin-An Chen, Wen-Hui Chu, Swathi M. Gowdru, Jou-Chun Lin, Bi-Hsuan Lin, Mau-Tsu Ta…
Read more »20 May. 2022, our Review Article “Electrochemical Reactions Towards the Formation of Heteroatomic Bonds beyond CO2 and N2 Reduction” has been accepted by Sustainable Energy & Fuels
20 May. 2022, our Review Article “Electrochemical Reactions Towards the Formation of Heteroatomic Bonds beyond CO2 and N2 Reduction” has been accepted by Sustainable Energy & Fuels Shivaraj B. Patil and Di-Yan Wang* Abstract…
Read more »31 Jan. 2022, Dr. Shivaraj Patil received 2021 CSLT, Everlight Chemical Thesis Award in Green Chemistry
Dr. Shivaraj Patil received 2021 CSLT, Everlight Chemical Thesis Award in Green Chemistry https://chemistry.org.tw/news-single.php?mTitle=department&temp_id=724
Read more »31 Jan. 2022, Prof. Wang received 2021 CSLT, Outstanding Young Chemical Researcher Award
31 Jan. 2022, Prof. Wang received 2021 CSLT, Outstanding Young Chemical Researcher Award https://chemistry.org.tw/news-single.php?mTitle=department&temp_id=724
Read more »05 Nov. 2021, Prof. Wang received Academia Sinica Early-Career Investigator Research Achievement Award in 2021
簡評: 得獎人王迪彥博士的研究著重於以地球豐富元素發展奈米結構觸媒,針對無碳排放之電催化(EC)氮還原反應(NRR),建立臨場電化學搭配光譜分析技術,結合實驗與理論深入探討NRR 機制。國際上於EC-NRR 相關研究起始於2018 年,由於其環保性質、可於大氣環境下反應、使用水性電解質及低成本催化劑等優點而於近年來備受關注。王博士針對氮氣分子在催化劑表面上之低吸附能力,以及材料結構表面對氮氣的不相容性與低穩定性所造成活性不佳之問題,提出有效的解決方法。 此外,其利用紅外光吸收…
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