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[1]Gas phase reaction of laser ablated Cu plasma with ethanol clusters.Acta Physico - Chimica Sinica, 2003, 19(12): 1114-1118.
[2]Wavelength dependence of production of multicharged carbon ions in nanosecond intense laser ionization of seeded benzene beam.Chinese Journal of Chemical Physics, 2004, 17(4): 375-377.
[3]Reaction of laser-ablated Ni plasma with methanol clusters.Chinese Journal of Chemical Physics, 2004, 17(2): 116-120
[4]Covariance analysis of the Coulomb explosion of ammonia induced by intense nanosecond laser at 532 nm.(26)Chinese Science Bulletin, 2005, 50(18): 2115-2117.
[5]Controllable generation of highly stripped ions with different charges by nanosecond laser ionization of clusters at different wavelengths.Applied Physics Letters, 2005, 87(3): 034103
[6]Coulomb explosion of ammonia clusters induced by intense nanosecond laser at 532 and 1064. nm: Wavelength dependence of the multicharged nitrogen ions.Journal of Chemical Physics, 2005, 122(15): 151103.
[7]Cluster assistant multiply ionization of benzene by nanosecond laser: wavelength dependence of the production of highly charged carbon ions.Chemical Physics Letters, 2005, 403(1-3): 218-222.
[8]Cluster-assisted generation of multi-charged ions in nanosecond laser ionization of pulsed hydrogen sulfide beam at 1064 and 532 nm.Chinese Physics, 2006, 15(7): 1511-1516.
[9]Reactions of laser ablated metal plasma with molecular alcohol beams: Dependence of the produced cluster ion species on the beam condition.Chinese Journal of Chemistry, 2006, 24(6): 750-754.
[10]532nm纳秒激光电离分子团簇产生高价离子实验研究.强激光与粒子束, 2006, (03): 483-486.
[11]纳秒激光电离分子团簇产生高离化离子的激光波长效应,.强激光与粒子束, 2007, (05): 854-858.
[12]Cluster-assisted generation of multiply charged ions in nanosecond laser ionization of seeded furan beam at 532 and 1064 nm.Molecular Physics, 2008, 106(11): 1389-1395.
[13]Orientation-dependent energy level alignment and film growth of 2,7-diocty[1]benzothieno[3,2-b]benzothiophene ( C8-BTBT) on HOPG.Journal of Chemical Physics, 2016, 144(3): 034701.
[14]Evolution of the electronic structure of C-60/La0.67Sr0.33MnO3 interface.Applied Physics Letters, 2016, 108(1): 011603.
[15]Effect of a MoO3 buffer layer between C8-BTBT and Co(100) single-crystal film.RSC Advances, 2016, 6(113): 112403-112408.
[16]Adsorption, film growth, and electronic structures of 2,7-dioctyl[1]benzothieno-[3,2-b][1]benzothiophene (C8-BTBT) on Cu (100).Acta Physica Sinica, 2016, 65(15): 157901.
[17]Thickness-dependent electronic structure of the interface of 2,7-dioctyl[1]benzothieno[3,2-b][1] benzothiophene/Ni(100).Acta Physica Sinica, 2016, 65(4): 047902.
[18]The correlations of the electronic structure and film growth of 2,7-diocty [1] benzothieno [3,2-b] benzothiophene (C8-BTBT) on SiO2.Physical Chemistry Chemical Physics, 2017, 19(2): 1669-1676.
[19]Interface electronic structure and morphology of 2,7-dioctyl[1]benzothieno[3,2-b]benzothiophene (C8-BTBT) on Au film.Applied Surface Science, 2017, 416: 696-703.
[20]Interfacial chemical and electronic structure of cobalt deposition on 2,7-dioctyl[1]benzothieno [3,2-b]benzothiophene (C8-BTBT).Applied Surface Science, 2017, 402: 142-146.
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