高エネルギー密度化に向けたナノ構造体有する新規電極材料の合成

2019 Fiscal Year Annual Research Report

• Project/Area Number: 18F18764
• Research Institution: National Institute for Materials Science
• Principal Investigator: 山内 悠輔 国立研究開発法人物質・材料研究機構, 国際ナノアーキテクトニクス研究拠点, MANA主任研究者 (10455272)
• Co-Investigator(Kenkyū-buntansha): DING BING 国立研究開発法人物質・材料研究機構, 国際ナノアーキテクトニクス研究拠点, 外国人特別研究員
• Project Period (FY): 2018-07-25 – 2021-03-31
• Keywords: 多孔体

Outline of Annual Research Achievements

We prepared bimetal metal-organic frameworks (BiMOF)-derived porous carbon through a self template-directed synthesis strategy followed by high temperature pyrolysis. The dimensions, morphologies, and compositions of BiMOFs were controlled by adjusting reaction conditions (e.g., time, temperature, solvent). Single-atom doped porous carbon could be obtained through one-step programmed carbonization, as well. Preliminary electrochemical performances of sulfur cathode was carried out through cyclic voltammetry (CV), galvanostatic charge/discharge, and EIS. The effects of morphology, porosity, and single-atom doping of carbon-based materials on the performance of sulfur cathodes were systematically investigated. Some of results were published already in international journals.

Current Status of Research Progress

1: Research has progressed more than it was originally planned.

Reason

記載している事項はすべて着実に達成してきている．

Strategy for Future Research Activity

The rational design and fabrication of ordered mesoporous materials with highly exposed surface area are of great significance to address the fundamental challenges in electrochemistry-related applications by providing more active sites and fast ion/gas diffusion channel.
In FY 2020, a self-template method will be reported to prepare hollow-structured and ordered mesoporous carbon (HOMC) nanoplates by depositing resol-F127 micelles onto the surface of metal-organic-framework (MOF) nanosheets, followed by hydrothermal reaction and carbonization. The parameters influencing the morphology and microstructure of the HOMC materials, i.e., the MOF-to-resol-F127 ratio and the concentration of resol-F127 micelles, will be systematically investigated.

Research Products

• [Journal Article] Solid/Solid Interfacial Architecturing of Solid Polymer Electrolyte Based All‐Solid‐State Lithium-Sulfur Batteries by Atomic Layer Deposition (2019)
  • Author(s): Fan Zengjie、Ding Bing、Zhang Tengfei、Lin Qingyang、Malgras Victor、Wang Jie、Dou Hui、Zhang Xiaogang、Yamauchi Yusuke
  • Journal Title: Small Volume: 15 Pages: 1903952～1903952
  • DOI: 10.1002/smll.201903952
• [Journal Article] Confined Pyrolysis of ZIF‐8 Polyhedrons Wrapped with Graphene Oxide Nanosheets to Prepare 3D Porous Carbon Heterostructures (2019)
  • Author(s): Ding Bing、Fan Zengjie、Lin Qingyang、Wang Jie、Chang Zhi、Li Tao、Henzie Joel、Kim Jeonghun、Dou Hui、Zhang Xiaogang、Yamauchi Yusuke
  • Journal Title: Small Methods Volume: 3 Pages: 1900277～1900277
  • DOI: 10.1002/smtd.201900277