SAINI NISHELNISHEL SAINI

Last Updated :2026/01/07

所属・職名
大学院先進理工系科学研究科 特任助教
メールアドレス
nishelhiroshima-u.ac.jp
自己紹介
My research interest includes membranes for separation technology. My primary focus is to design and fabricate polymer membranes and further engineer them for advanced gas separation applications.

基本情報

学歴

  • University of Rajasthan, 2015年
  • マラヴィヤ国立工科大学ジャイプール校 (MNIT), 物理, インド, 2019年, 2024年

学位

  • 修士(Physics) (バナスタリ大学)
  • 博士(Physics Materials Science) (マラヴィヤ国立工科大学ジャイプール)

研究キーワード

  • ナノマテリアル
  • ポリマー
  • ガス分離

研究活動

学術論文(★は代表的な論文)

  1. Development of low-cost gas chromatograph with polyaniline-modified silica gel stationary phase for the isolation of hydrogen and carbon dioxide gases, Journal of Materials Chemistry A, 2026
  2. Enhancing Hydrogen Separation Performance through ZIF-8 Incorporated PMMA-PC Blend-based Mixed Matrix Membranes, Nanoscale, 17巻, pp. 27423, 2025
  3. Effect of Pd nanoparticles decoration on graphene oxide @polycarbonate mixed matrix membranes for hydrogen separation, Materials Today Chemistry, 48巻, pp. 102996, 2025
  4. Bimetallic PdPt nanoparticles incorporated PEDOT:PSS/Guar gum blended membranes for enhanced CO2 separation, Nanoscale, 17巻, pp. 2105, 2024
  5. Bimetallic PdPt nanoparticles decorated PES membranes for enhanced H2 separation, Langmuir, 40巻, pp. 24318, 2024
  6. Incorporation of green synthesized ZnO with support of rGO sheets into PVDF membranes to improve their filtration and antifouling properties for wastewater treatment, New Journal of Chemistry, 48巻, pp. 17013, 2024
  7. ZIF-67@polyvinylidene fluoride mixed matrix membranes towards improved hydrogen separation performance, Environmental Science and Pollution Research, 31巻, pp. 53424, 2024
  8. Engineering of nanochannels in polymer membranes for energy and biological applications, The European Physical Journal Special Topics, 233巻, pp. 3133, 2024
  9. PANI/CD/SnO2 ternary nanocomposite for efficient room temperature ammonia detection, Journal of Electronic Materials, 53巻, pp. 5103, 2024
  10. Bimetallic PdPt alloy nanoparticle-decorated track-etched polyethylene terephthalate membranes for efficient H2 separation, Materials Advances, 5巻, pp. 2906, 2024
  11. Functional nanomaterials for the sensing of volatile organic compounds, Nanomaterials in Environmental Analysis (Elsevier), pp. 179-217, 2024
  12. A Systematic Review of MOF, COF, and Their Hybrid-Based Composite Membranes for Gas Separation, Macromolecular Symposia, 413巻, pp. 2300058, 2024
  13. Unveiling the potential of Pt nanoparticle-decorated PEDOT:PSS membranes for efficient gas separation, ACS Applied Materials and Interfaces, 16巻, pp. 7700, 2024
  14. ZIF-8 @polycarbonate nano composite membranes for improved permeability and selectivity for hydrogen gas, Environmental Science and Pollution Research, 30巻, pp. 105387, 2023
  15. Nanoarchitectonics of polyaniline–zinc oxide (PANI–ZnO) nanocomposite for enhanced room temperature ammonia sensing, Applied Physics A, 129巻, pp. 765, 2023
  16. Experimental investigation of natural polysaccharide-based mixed matrix membrane modified with Graphene oxide and Pd-nanoparticles for enhanced gas separation performance, International Journal of Hydrogen Energy, 47巻, pp. 41820, 2022
  17. Insights into the progress of polymeric nano-composite membranes for hydrogen separation and purification in the direction of sustainable energy resources, Separation and Purification Technology, 282巻, pp. 120029, 2022
  18. Conjugate polymer-based membranes for gas separation applications: current status and future prospects, Materials Today Chemistry, 22巻, pp. 100558, 2021

招待講演、口頭・ポスター発表等

  1. 2024年03月07日, 通常, 英語
  2. 2024年07月10日, 通常, 英語
  3. 2025年02月03日, 通常, 英語
  4. 2025年11月24日, 招待, 英語