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研究方向

低碳能源与材料实验室,依托华中科技大学材料成形与模具技术国家重点实验室,致力于新型能源材料的设计开发与绿色低碳制造,助力国家清洁能源转型及碳中和战略的早日实现。实验室有多个研究生、博士后及本科实习位置,热诚欢迎感兴趣的同学进行联系(邮箱:yaoyg@hust.edu.cn)

在研项目:

  1. 国家自然科学基金(2022-2024;2024-2027),科技部重点研发-青年(骨干)(2022-2026),空间站培育项目(骨干)
  2. 湖北省创新群体(骨干,2023-2026)
  3. 武汉英才 - 氢能(2021),深圳市科创委国际合作项目(2023-2025)
  4. 华科交叉研究支持项目(2023-2025),武纺国家重点实验室开放基金 (2023-2025)
  5. 阿里达摩院青橙奖(2022)
  6. 学生项目:博士后面上项目(郭亚晴),国家级大创项目(马京),研究生创新基金(林诚

已完成基金:

  1. 国家高层次青年人才(2020-2023)
  2. HUST-QMUL伦敦玛丽女王大学联合基金(2022-2022)
  3. 武汉市科技创新专项(2022-2024)

特色研究方向如下:

1. 新型能源材料(合金催化剂、电池材料)

代表方向:高熵合金催化剂 https://www.bilibili.com/video/BV1UR4y1H7JA?spm_id_from=444.41.0.0

代表文章

  1. High-entropy nanoparticles: Synthesis-structure-property relationships and data-driven discovery. Science, 376, 3103 (2022).
  2. Carbothermal shock synthesis of high-entropy-alloy nanoparticles. Science, 2018, 359, 1489-1494. (Cover)
  3. Denary oxide nanoparticles as highly stable catalysts for methane combustion. Nature Catalysis, 2021, 4 (5), 439-439.
  4. Highly efficient decomposition of ammonia using high-entropy alloy catalysts. Nature Communications, 2019, 10 (1), 4011.

2. 高效低碳制造(绿色燃料、电池再制造)

代表文章

  1. Programmable Heating and Quenching for Efficient Thermochemical Synthesis. Nature 2022, 605 (7910), 470–476.
  2. Transient and General Synthesis of High-Density and Ultrasmall Nanoparticles on Two-Dimensional Porous Carbon via Coordinated Carbothermal Shock. Nat. Commun. 2023, 14 (1), 2294.
  3. Extreme mixing in nanoscale transition metal alloys. Matter, 2021, 4, 2340-2353.
  4. High temperature shockwave stabilized single atoms. Nature Nanotechnology, 2019, 14, 851-857.

3. 快速智能开发(自动化、机器学习)

代表文章

  1. Wood-Inspired Metamaterial Catalyst for Robust and High-Throughput Water Purification. Nat. Commun. 2024, 15, 2046.
  2. Computationally aided, entropy-driven synthesis of highly efficient and durable multi-elemental alloy catalysts. Science Advance, 2020, 6, eaaz0510.
  3. High-throughput, combinatorial synthesis of multimetallic nanoclusters. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 2020, 117, 6316-6322.

4. 绿色低碳发展(负碳材料、循环经济)

代表文章

  1.  Regenerated Graphite Electrodes with Reconstructed Solid Electrolyte Interface and Enclosed Active Lithium Toward >100% Initial Coulombic Efficiency. Adv. Mater. 2024, 2312548.
  2. Transient and Dry Recycling of Battery Materials with Negligible Carbon Footprint and Roll-to-Roll Scalability. Energy Environ. Sci. 2023, 16 (6), 2561-2571.
  3. Rejuvenating LiNi0.5Co0.2Mn0.3O2 Cathode Directly from Battery Scraps. eScience 2023, 100091.
  4. A Strong, Biodegradable and Recyclable Lignocellulosic Bioplastic. Nat. Sustain. 2021, 4 (7), 627–635.