姓名：刘柏雄

性别：男

学位/职称：博士/教授

出生年月：1979年11月

电子邮箱：liubaixiong@jxust.edu.cn 

学科专业：材料学

职称：教授

研究方向：微纳结构材料设计及可控合成、高性能铜基复合材料、高性能硬质合金

【专利及转化】

1、液液掺杂氧化钇制备纳米钨基粉体材料的方法，ZL 201910534476.6

2、一种废旧硬质合金高效节能氧化方法, ZL 201610350711.0

3、一种单分散超细/纳米钨粉的制备方法, ZL 201610870277.9

4、一种废旧硬质合金回收制备超细WC-Co复合粉方法, ZL 201610870255.2

5、一种喷雾干燥系统, ZL 201610045038.X

【科研项目】

1、高端铜及铜合金科技数据资源节点建设，国家重大专项课题，主持

2、新能源汽车驱动电机用无氧铜PEEK线研发及产业化，江西省2030先锋工程子课题，主持

3、可穿戴人工肾脏用铁磁性Cu²⁺修饰二维层状Ti₃C₂T_x吸附材料的构建及其吸附机理，国家自然科学基金，主持

4、大块有序大/介复合孔MgO环境修复材料可控合成及吸附行为，国家自然科学基金，主持

5、超临界水热化学还原制氢装备服役特性与安全防护，国家重点研发计划子课题,主持

【代表性论文】

1、Amino-mediated interfacial regulation of alkalized Ti₃C₂T_xto enhance urea adsorption capacity, Seperation and Purification Technology, 2025, 377: 134241

2、Fabrication of porous tungsten with tunable pore structures via low-temperature pressureless sintering: Processing and mechanisms, International Journal of Refractory Metals & Hard Materials, 2025, 132: 107300

3、Achieving the strength-conductivity synergy of Y₂O₃diffusion reinforced Cu matrix composites based on supercritical liquid system reduction, Ceramics International, 2025, 51:8116-8128

4、Improving the adsorption performance of urea by using polyhydroxy groups to modify two-dimensional Ti₃C₂T_x,Chemosphere, 2023, 337:139303-139311

5、Calcitriol reverses age-related hypertension via downregulating renal AP₁/AT₁R pathway through regulating mitochondrial function, Clinical and Experimental Hypertension, 2023, 45: 2277653-2277662

6、Macroporous honeycomb-like magnesium oxide fabricated as long-life and outstanding Pb(II) adsorbents combined with mechanism insight, Environmental Science and Pollution Research, 2023,30: 38380-38393

7、Enhanced removal of ammonia nitrogen from rare earth wastewater by NaCl modified vermiculite: Performance and mechanism,Chemosphere, 2022, 302:13472-13482

8、Revealing the adhesion strength and electronic properties of Ti₃SiC₂/Cu interface in Ti₃SiC₂reinforced Cu-based composite by a first-principles study, Surfaces and Interfaces, 2021,27: 101467-101476

9、Template synthesis of ordered mesoporous MgO with superior adsorption for Pb(II) and Cd(II), Environmental Science and Pollution Research, 2021, 28:31630-31639

10、Fabrication of three-dimensional ordered macroporous/mesoporous magnesium oxide for efficient cadmium removal, Ceramics International, 2021, 47: 22830-22838