黄竹林

职称:博导,研究员,国家优秀青年,中科院青年创新促进会会员

部门:纳米材料与器件技术研究部

电话:0551-65597936

邮箱:zlhuang@issp.ac.cn

地址:安徽省合肥市蜀山湖路350号固体物理研究所

简历

  • 研究方向
  • 主要科研工作
  • 代表性成果
  • 荣 誉
1)极端环境服役的隔防热材料,包括陶瓷粉体/纤维、高熵陶瓷、气凝胶
2)极端环境服役的导/散热材料与器件,包括高导热碳,热辐射材料
3)金属/陶瓷粉材的3D增材打印,包括陶瓷粉材与浆料的研制,工艺及评价
4)热控材料高通量设计及热传导模拟
针对临近空间及微型反应堆对热控服役材料的关键需求,开展以碳化硼、碳化硅气凝胶、硼化铪、稀土氧化物涂层及高导热碳为代表的热控材料的研制与性能评价研究,实现中子的高效吸收与屏蔽,提升热防护构件的隔/防热与导/散热性能,阐明热控材料的服役机理及性能演化规律,建立中子吸收与屏蔽、隔/防热与导/散热构件及涂层、微观组织结构、热控性能的一体化设计方案。主要研究兴趣包括超高温陶瓷隔防热材料、导散热材料、高低发射率材料及陶瓷材料的3D打印技术等热管控材料的制备及工程应用。
代表性成果
1.Xincan Gao, et al. Synthesis of ultrafine WC ceramic powders with reduced carbon content by liquid phase precursor method and the sintering behaviors. Ceramics International 2024, 50, 15134–15143.
2.Mengen Hu, et al. Phase-Tunable Molybdenum Boride Ceramics as anEmerging Sensitive and Reliable SERS Platform in Harsh Environments. Small 2024, 2308690.
3.Zhimin Chen, et al. Self-Confined Dewetting Mechanism in Wafer-Scale Patterning of Gold Nanoparticle Arrays with Strong Surface Lattice Resonance for Plasmonic Sensing. Adv. Sci. 2024, 2306239.
4.Xian Dang, et al. Improved spectral emissivity and mechanical properties of high-entropy (Ti0.2Zr0.2Nb0.2Mo0.2Hf0.2)B2 derived from boro/carbothermal reduction. Journal of the European Ceramic Society 2024, 44, 4410–4424.
5.Chunxue Zheng, et al. Biomass-derived lightweight SiC aerogels forsuperior thermal insulation. Nanoscale, 2024, 16, 4600–4608.
6.Liangfei Wu, et al. Kirkendall effect induced ultrafine VOOH nanoparticles and their transformation into VO2(M) for energy-efficient smart windows. Mater. Horiz. 2024, 11, 1098–1107.
7.Zhen Wang, et al. Synthesis and formation mechanism of HfB2 ultrafine powders with low oxygen via flocculating settling assisted process and carbo/borothermal reduction. Journal of Materials Science & Technology, 2023 164, 229–239.
8.Chunxue Zheng, et al. Flexible 3D Substrate of Ag Nanoparticle-Loaded Carbon Aerogels with Outstanding Surface-Enhanced Raman Scattering Performance. ACS Appl. Mater. Interfaces 2023, 15, 29609−29617.
9.Mengen Hu, et al. Ultrafine ZrB2 Ceramic Powders Prepared by a Sol−Gel Method Synergized with a Carbothermic Reaction and Their Improved Sintering Performance. ACS Applied Engineering Materials 2023, 1, 769−779.
10.Tianxu Wang, Zhen Wang, Chenguang Hu, Xinyang Li, Zhulin Huang, Xiaoye Hu, Yue Li. Dispersant-assisted preparation of ultra-fine HfB2 powder. Applied Surface Science 2022, 606, 154995.
1、安徽省自然科学一等奖
2、中国科学院青年创新促进会会员
3、合肥市高层次人才