个人简历
教育背景2002.9-2008.1 清华大学精仪系,机械工程(工学博士)1994.9-1997.3 天津大学,机械工程(工学硕士)1990.9-1994.7 天津大学,机械工程、电子工程(工学双学士)
近期论文
发表刊物[1] Wang KF, Chen RL, Xu XF, Ma TB, Ma LR, Wen SZ, Luo JB. Revealing the essence of luminescence energy transformation from silica surfaces. Journal of Luminescence, 2018, 197: 389-395.[2] Shen X, Han K, Ma LR, Gao M, Xu XF, Luo JB. Nano-Ag-forest based surface enhanced Raman spectroscopy (SERS) of confined acetic acid. Colloids and Surfaces A: Physicochem. Eng. Aspects, 2018, 547: 126-133.[3] Zhang YR, Ma LR*, Wang KF, Xu XF*, Gao Y, Wen SZ, Luo JB. Triboluminescence modulated by humidity. Journal of Luminescence, 2017, 182: 22-28.[4] Fu JY, Xu XF, Luo JB, Ma, LR. Dramatically Enhanced Film-Formation Performance Using O/W Emulsion Under Starving Feeding Mode. Tribology Letters, 2017, 65(4): 126.[5] Wang KF, Xu XF, Ma LR, Wang AY, Wang R, Luo JB, Wen SZ. Studies on triboluminescence emission characteristics of various kinds of bulk ZnS crystals. Journal of Luminescence, 2017, 186: 307–311.[6] Wang YL, Ma LR, Xu XF*, Luo JB. Expressions for the evaporation of sessile liquid droplets incorporating the evaporative cooling effect. Journal of Colloid and Interface Science (J. Colloid Interface Sci.), 2016, 484: 291-297.[7] Wang KF, Ma LR, Xu XF, Wen SZ, Luo JB. Triboluminescence dominated by crystallographic orientation. Scientific Reports, 2016, 6: 26324.[8] Wang YL, Ma LR, Xu XF*, Luo JB. Combined effects of underlying substrate and evaporative cooling on the evaporation of sessile liquid droplets. Soft Matter, 2015, 11(28): 5632-5640.[9] Xu XF*, Ma LR, Analysis of the effects of evaporative cooling on the evaporation of liquid droplets using a combined field approach, Scientific Reports, 2015, 5: 8614.[10] Huang DD, Ma LR, Xu XF*. The capillary outward flow inside pinned drying droplets. International Journal of Heat and Mass Transfer, 2015, 83: 307–310.[11] Wang KF, Ma LR, Xu XF, Wen SZ, Zhang YR. Enhancement of Triboluminescence in the Presence of CO2 by Sliding between Silica and Yttria-Stabilized Zirconia. Langmuir, 2015, 31(30): 8224-8227.[12] Zhang K, Ma LR, Xu XF*, Luo JB, and Guo D. Temperature distribution along the surface of evaporating droplets. Physical Review E, 2014, 89(3): 032404.[13] Xu XF*, Ma LR, Huang DD, Luo JB, Guo D. Linear growth of colloidal rings at the edge of drying droplets, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, 447: 28-31.[14] Ma LR, Xu XF, Zhang CH, Luo JB. Direct observation of the formation and destruction of the inverted continuous oil phase in the micro-outlet region achieved by the confined diluted O/W emulsion stream. Soft Matter, 2014, 10, 7946-7951.[15] Ma LR, Xu XF, Zhang CH, Guo D, Luo JB. Reemulsification effect on the film formation of O/W emulsion, Journal of Colloid and Interface Science, 2014, 417(2), 238-243.[16] Xu XF*, Luo JB, Guo D. Radial-velocity Profile along the Surface of Evaporating Liquid Droplets, Soft Matter, 2012, 8(21): 5797-5803.[17] Xu XF*, Luo JB, Guo D. Nanoparticle-wall collision in a laminar cylindrical liquid jet, Journal of Colloid and Interface Science, 2011, 359(2): 334-338.[18] Xu XF, Luo JB*, Guo D. Criterion for Reversal of Thermal Marangoni Flow in Drying Drops. Langmuir, 2010, 26(3): 1918-1922.[19] Xu XF, Luo JB*, Lu XC, Zhang CH, Guo D. Effect of impacting nanoparticles on material removal. Tribology Transactions, 2008, 51(6): 718-722.[20] Xu XF, Luo JB*. Marangoni flow in an evaporating water droplet. Applied Physics Letters, 2007, 91:124102.[21] Xu XF, Luo JB*, Yan J. A PIV system for two-phase flow with nanoparticles. International Journal of Surface Science and Engineering, 2008, 2(1-2): 168-175.
