本科毕业于西安交通大学化学与化学工程系,硕士与博士就读于法国贝桑松大学物理化学专业。在中国科学院理化技术研究所完成为期两年的一站博士后研究。于2009年在北航中法工程师学院/国际通用工程学院,从事教研岗位至今,副教授,硕士生导师。
研究方向包括纳米薄膜/低维材料,钙钛矿太阳能电池,电/磁流变液等。发表论文:
[1]H Z Tang, H. Wang, J H He, Superhydrophobic Titania Membranes of Different Adhesive Forces Fabricated by Electrospinning, Journal of Physical Chemistry C, 2009, 113 (22): 14220-14224. (SCI Q1, IF 4.224 )
[2]H Z Tang, J H He, J Persello, Giant Electrorheological Effects of Aluminum-Doped TiO2 Nanoparticles, Particuology, 2010, 8: 442-446. (SCI Q2, IF 0.899)
[3]H Z Tang, The particles size influence of polydispersity on the properties of a Magnetorheological Fluids, Science China-Physics, Mechanics & Astronomy 2011, 54 (7): 1258-1262. (SCI Q1, IF 2.237)
[4]H Wang, H Z Tang, J H He, et al, Fabrication and Characterization of Aligned Ferrite Nanofibers by Magnetic-Field-Assisted Electrospinning, Materials Research Bulletin, 2009, 44: 1676-1680. (SCI Q2, IF 1.383)
[5] X T Zhan, H Z Tang, et al, Facile preparation of Fe nanochains and their electromagnetic properties, RSC advances, 2013, (3): 15966-15970. (SCI Q2, IF:3.708)
[6] H Z Tang, X T Zhan, et al, Controllable and facile fabrication of Fe nanoparticles/nanochains and their magneticproperties, Journal of magnetism and Magnetic Material, 2015, (377): 472-476. (SCI Q2, IF:2.630)
[7] H Z Tang, Z Wu, Application of percolation theory on hydrophobic membrane withhigh adhesive force, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016, (498): 276–282. (SCI Q2, IF:2.760)
[8] H Z Tang, D Han, Controllable preparation of iron , nanostructures and their magnetic properties, Journal of Magnetism and Magnetic Materials 2017 (444 ) : 125-131. (SCI Q2, IF:2.630)
[9] H Z Tang, Y J Chai, D Han, Controllable preparation of iron nanostructure/carbon nanotube composite materials and their microwave absorption properties, Vacuum, 2019 (161): 111-118. (SCI Q2, IF:2.067)
[10] H Z Tang, D Han, J Zhang, Electrospinning fabrication of polystyrene-silica hybrid fibrous membrane for high-efficiency air filtration, Nano Express, 2021 (2): 020017.
[11] H Z Tang, J Ji, D Han, Y J Chai, Complex Electromagnetic Parameters and Microwave Absorption Properties of Iron Nanochain/Carbon Nanotube Composite Materials, Journal of Superconductivity and Novel Magnetism, 2022(35):507–514.(SCI Q2, IF:1.675)