SINGH RINIRINI SINGH

Last Updated :2021/04/06

所属・職名
大学院先進理工系科学研究科 助教
メールアドレス
rinihiroshima-u.ac.jp
自己紹介
Material Science, Energy STorage, Li Ion batteries and Nanotechnology

基本情報

学位

  • M.Sc(Department of Physics) (Banasthali Vidyapith)
  • Ph.D(Department of Physics) (Banasthali Vidyapith)

教育活動

授業担当

  1. 2021年, 修士課程・博士課程前期, 1ターム, 機械工学特別演習A
  2. 2021年, 修士課程・博士課程前期, 2ターム, 機械工学特別演習A
  3. 2021年, 修士課程・博士課程前期, 3ターム, 機械工学特別演習B
  4. 2021年, 修士課程・博士課程前期, 4ターム, 機械工学特別演習B
  5. 2021年, 修士課程・博士課程前期, 年度, 機械工学特別研究
  6. 2021年, 博士課程・博士課程後期, 年度, 機械工学特別研究

研究活動

学術論文(★は代表的な論文)

  1. Optical studies on bismuth chalcogenides, Materials Today Proceedings, 10巻, 142-150号, 2019
  2. Electrochemical sensor for detection of mercury (II) ions in water using nanostructured bismuth hexagons, Applied Physics A, 124巻, 737号, 2018
  3. Electrochemical hydrogen evolution and storage studies on bismuth nano hexagons, International Journal of Hydrogen energy, 43巻, 21642-21648号, 2018
  4. ★, Investigation of dimensionality dependent thermal stability of Bi2Te3, Applied Physics A, 124(8)巻, 558号, 2018
  5. ★, LiBH4 as a solid electrolyte for Li ion batteries with Bi2Te3 nanostructured anode, International Journal of Hydrogen energy, 43巻, 21709-21714号, 2018
  6. Effect of isovalent substitution on the structural and electrical properties of BixSb2-xTe3 topological insulator single crystals, Materials Today Proceedings, 31巻, 616-621号, 2020
  7. Growth and structural characterization of BiSbTe3-ySey single crystals, Materials Today Proceedings, 31巻, 622-624号, 2020
  8. Sensing performance of Na3BiO4 - Bi2O3 mixed oxide nanostructures based EGFET pH sensor, International Journal of Hydrogen energy, 45巻, 18743-18751号, 2020
  9. Effect of nanostructuring on surface oxidation of bismuth telluride, Materials Today Proceedings, 2020
  10. Enhanced performance of MgH2 composite electrode using glass-ceramic electrolytes for all-solid-state Li-ion batteries, Journal of Alloys and Compounds, 863巻, 158729号, 20210112
  11. Highly stable nanostructured Bi 2 Se 3 anode material for all solid-state lithium -ion batteries, JOURNAL OF ALLOYS AND COMPOUNDS, 838巻, 20201015
  12. Electrochemical reaction mechanism for Bi2Te3-based anode material in highly durable all solid-state lithium-ion batteries, JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, 31巻, 19号, pp. 16429-16436, 202010
    DOIを用いた論文検索結果へのリンク

招待講演、口頭・ポスター発表等

  1. TiFe Hydride as potential anode material for All-Solid-State Lithium-Ion Batteries, International Conference on Soft Materials 2020, 2020年12月08日, 通常, 英語, online

受賞

  1. 2017年02月17日, EUCALL Young Researcher Travel Bursary Award, European Synchrotron Radiation Facilty (ESRF)