2009年獲得世界摩擦學大會WTC Taiho Encouraging Award for Young Tribologists
2007年獲得清華大學學術新秀提名暨精儀系學術新秀
代表性論文:
1.Wang LF, Ma TB, Hu YZ, et al. Atomic-scale friction in graphene oxide: An interfacial interaction perspective from first-principles calculations. Physical Review B 86, 125436 (2012).
2.Xu L, Ma TB, Hu YZ, et al. Molecular dynamics simulation of the interlayer sliding behavior in few-layer graphene. Carbon 50, 1025-1032 (2012).
3.Ma TB, Hu YZ, Xu L, et al. Shear-induced lamellar ordering and interfacial sliding in amorphous carbon films: a superlow friction regime. Chemical Physics Letters 514, 325-329 (2011).
4.Xu L, Ma TB, Hu YZ, et al. Vanishing stick-slip friction in few-layer graphenes: the thickness effect. Nanotechnology 22, 285708 (2011).
5.Ma TB, Hu YZ, Wang H. Molecular dynamics simulation of shear-induced graphitization of amorphous carbon films. Carbon 47, 1953-1957 (2009).
6.Ma TB, Hu YZ, Wang H. Growth of ultrathin diamond-like carbon films by C60 cluster assembly: Molecular dynamics simulations. Diamond and Related Materials 18, 88-94 (2009).
7.Ma TB, Hu YZ, Wang H. Formation and coalescence of linear chains in growth of nanostructured sp-sp2 amorphous carbon films. Chemical Physics Letters 462, 104-108 (2008).
8.Ma TB, Hu YZ, Wang H. Formation of linear carbon chains during the initial stage of nanostructured carbon film growth. Journal of Applied Physics 104, 064904 (2008).
9.Ma TB, Hu YZ, Wang H, et al. Effect of impact angle and substrate roughness on growth of diamondlike carbon films. Journal of Applied Physics 101, 014901 (2007).
10.Ma TB, Hu YZ, Wang H, et al. Microstructural and stress properties of ultrathin diamondlike carbon films during growth: Molecular dynamics simulations. Physical Review B 75, 035425 (2007).