Education and Employment History:

Ph. D.:  Physical Chemistry (Surface Chemistry and Catalysis), 1995-1998: Fudan University, Shanghai, P. R. China.

M. Eng.: Applied Chemistry (Surface Technology, Electrochemistry) 1989-1991: Northeast University, Shenyang, P. R. China.

Training: Coordination Chemistry, 1985-1986:  Wuhan University, Wuhan, P. R. China.

B. Sc.:  Chemistry (Inorganic Chemistry), 1978-1982: Shandong University, Jinan, P. R. China.

Employment History:

2004-2017, Worked for 2-3 months every year as associate researcher, Visiting Professor

Address: Department of Chemistry, The University  of Hong Kong, HK

2003.2-present, Professor of chemistry (Ph D supervisor)

Address: Department of Chemistry, Tianjin University, Tianjin 300072,China

2002.12-2003.2, KISTEP visiting scientist

Address: Catalysis Center for Molecular Engineering, Korea Research Institute of Chemical Technology (KRICT), Yusung, Taejon 305-600, Republic of Korea

2000.10-2002.1, Post-doctoral fellow

Address: Department of Chemistry, Hong   Kong Baptist University, HK

1999-2000, Post-doctoral Fellow

Address: Department of Chemical Engineering, University Laval, Quebec,Canada

Academic Society & Position: Editorial board for Journals《Recent Patents on Nanotechnology》，《Advances in Physical Chemistry》

Selected publications:

85. R. Amin, B.S Liu, Sana Ullah, Z.B. Huang, Study of coking and catalyst stability over CaO promoted Ni-based MCF synthesized by different methods for CH₄/CO₂ reforming reaction, Int. J. hydrogen energy 42 (2017) 21607-21616， FH9PX（二区，IF3.582）

84. Y. -S. Hong, K. -R. Sin, J.-S. Park, C. -J. Kim, B.S. Liu, Kinetic analysis of H₂S removal over mesoporous Cu-Mn mixed oxide/SBA-15 and La-Mn mixed oxide/KIT-6 sorbents during hot coal gas desulfurization using the deactivation kinetics model, Energy Fuels, 31(2017): 9874−9880.FI2LU（二区，IF3.091）

83. R. Amin, X.Q. Chang, B.S. Liu*，Synergistic effect of CeO₂ in CH₄/CO₂ dry reforming reaction over stable xCeO₂ yNi/MCM-22 catalysts, Ind. Eng. Chem. Res, 56 (2017):7445-7453. FA0XA（二区，IF2.843）

82. H. Xia，X.Q Chang, B.S. Liu，High-temperature H₂S removal performance over ordered mesoporous La-Mn-supported Al₂O₃-CaO sorbents，Chem.Eng.J. 321 (2017) 277–285. EU4ZR (一区，IF. 6.216)

81. H. Xia, B.S. Liu, High H₂O-resistance CaO-MnOx/MSU-H sobents for hot coal gas desulfurization. J. Hazard. Mater. 324 (2017）: 281-290  FEB 15，EF2VB, 10.1016/j.jhazmat.2016.10.058，（一区，IF6.065）

80. H. Xia, B.S. Liu, Q. Li, Z.B. Huang, A.S.-C. Cheung, High capacity Mn-Fe-Mo /FSM-16 sorbents in hot coal gas desulfurization and mechanism of elemental sulfur formation, Appl. Catal. B, 200 (2017)：552-565, DY0GP, （一区，IF. 9.446）

79. R. Amin, B.S. Liu*, Y.C. Zhao, Z.B. Huang，Hydrogen production by corncob/CO₂ dry reforming over CeO₂ modified Ni-based MCM-22 catalysts，Int. J. Hydrogen Energy, 2016, 41 (30): 12869-12879. IDS: DS2KY, （二区，IF3.582）

78. Y.C. Zhao, B.S. Liu, R. Amin，CO₂ reforming of CH₄ over MgO-doped Ni/MAS-24 with microporous ZSM-5 structure, Ind. Eng. Chem. Res, 55 (25) (2016): 6931-6942. JUN 29 DQ1TZ  （二区，IF2.843）

77. Z.B. Huang, B.S. Liu, X.H. Wang, X.Y. Tang, R. Amin. Performance of rare earth oxide doped Mn-based sorbent on various silica supports for hot coal gas desulfurization, Fuel, 177 (2016) 217-225. DH8QW （二区，IF4.601）

76. T.Q. Zhao, Q. Li, B.S. Liu, R.K.E. Gover, P.J. Sarre, A.S.-C. Cheung, Laboratory Astrochemistry: Catalytic Conversion of Acetylene to Polycyclic Aromatic Hydrocarbons over SiC Grains，Phys. Chem. Chem. Phys., 2016， 18(5): 3489-3496, IDS: DC8YZ (二区，IF. 4.123)

75. L .Z. Huang, B.S. Liu, Synthesis of a novel and stable reduced graphene oxide/MOF hybrid nanocomposites and photocatalytic performance for the degradation of dyes, RSC Adv., 2016, 6, 17873–17879. IDS: DE6BL, （二区，IF 3.108）

74. R. Amin, B.S. Liu, Z.B. Huang, Y.C. Zhao, Hydrogen and syn gas production via CO₂ dry reforming of methane over Mg/La promoted Co-Ni/MSU-S catalyst, Int. J. Hydrogen Energy,  41 (2)  (2016)  807-819, IDS: DC4PN （二区，IF3.582）.

73. Z.B. Huang, B.S. Liu., F. Wang, R. Amin，Different Preparation Process versus Performance of MnxOy/MCM-48 Sorbents for Hot Coal Gas Desulfurization, Ind. Eng. Chem. Res, 54(45) (2015):11268–11276, 10.1021/acs.iecr.5b03341, IF. 2.587, IDS: CW6ZY. （二区，IF2.843）

72. Z.B. Huang, B.S. Liu., F. Wang, R. Amin，Performance of Zn-Fe-Mn/ MCM-48 sorbents for high temperature H₂S removal and analysis of regeneration process, Appl. Surf. Sci. 353 (2015) 1–10.http://dx.doi.org /10.1016/j.apsusc.2015.06.058, IDS: CR3GW （二区，IF3.387）

71. Zheng, S; Liu, BS; Wang, WS; Wang, F; Zhang, ZF. Mesoporous and Macroporous Alumina-Supported Nickel Adsorbents for Adsorptive Desulphurization of Commercial Diesel ADSORPTION SCIENCE & TECHNOLOGY , 33 （4）（2015）337-353. (IF. 0.669)  IDS: CM5OZ

70. F. Wang, B. S. Liu,* Z. F. Zhang, S. Zheng, High-Temperature Desulfurization of Coal Gas over Sm Doped Mn-based/MSU-S Sorbents，Ind.Eng.Chem. Res, SCI: CQ8OC，54 (2015) 8405-8416， DOI: 10.1021/acs.iecr.5b01145. （二区，IF2.843）

69. H. Xia, F.M. Zhang, Z.F. Zhang B.S. Liu* Synthesis of functional xLayMn/KIT-6 and features in hot coal gas desulphurization† Phys. Chem. Chem. Phys., 2015, 17, 20667 (IF. 4.493)  CO5ZU

68. Z. F. Zhang, B. S. Liu*, F. Wang, S. Zheng, High-temperature desulfurization of hot coal gas on Mo modified Mn/KIT-1 sorbents, Chem. Eng. J. 272 (2015) 69–78. (IF. 6.216),   CH2LX

67. Z.F. Zhang, B.S. Liu*, F. Wang, W.S. Wang, C. Xia, S. Zheng, R. Amin, Hydrogen sulfide removal from hot coal gas by various mesoporoussilica supported Mn₂O₃ sorbents, Appl. Surf. Sci. 313 (2014) 961–969. IDS: AN6EZ，IF. 3.387

66. Bingsi Liu*, Wenshuo Wang, Na Wang, (Peter) Chak Tong Au, Preparation of activated carbon with high surface area for high-capacity methane storage, Journal of Energy Chemistry 23 (5) (2014) 662–668. IDS: AQ7AZ

65. Yong Son Hong, Z. F. Zhang, Z. P. Cai, X. H. Zhao, B. S. Liu*, Deactivation Kinetics Model of H₂S Removal over Mesoporous LaFeO₃/MCM-41 Sorbent during Hot Coal Gas Desulfurization，Energy Fuels, 28（9）(2014) 6012−6018. IDS: AP5KN， IF: 3.091

64. J.F. Li, C. Xia, C.T Au, B.S. Liu*，Y₂O₃-promoted NiO/SBA-15 catalysts highly active for CO₂/CH₄ reforming，Int. J. Hydrogen Energy, 3 9 (21) (2014) 1 0 9 2 7-1 0 9 4 0. IDS: AL3PA, IF. 3.582

63. B.S. Liu*, Y.H. Guo, Q.L. Zhang, F.M. Zhang, X.H. Zhao，Synthesis of Highly Ordered Nanorod Arrays 9Mn1CeMOs and Character of High Sulfur Capacity for Hot Coal Gas Desulfurization, Environmental Progress & Sustainable Energy, 33 (4) (2014):1266-1273.  doi 10.1002/ep. IDS: AR9CD,  WOS:000343867900024, IF. 1.403

62. B.S. Liu*, Z.Y. Wan, F. Wang, Y.P. Zhan, M. Tian, A.S.C. Cheung, ¹⁸O2 label mechanism of sulfur generation and characterization inproperties over mesoporous Sm-based sorbents for hot coal gasdesulfurization, J. Hazard. Mater., 267 (2014) 229–237. IDS: AC8VF IF. 6.065

61. M. Tian, T.Q. Zhao, P.L. Chin, B.S. Liu, A.S.-C. Cheung*, Methane and propane co-conversion study over zinc, molybdenum and gallium modified HZSM-5 catalysts using time-of-flight mass-spectrometry, Chem. Phys. Lett. 592 (2014) 36–40. IDS: 295IS. IF.1.991

60. C. Xia, B. S. Liu*, Y. H. Guo, LaxNiyOz/MAS‑9 Catalysts with High Ni0 Dispersion and Hydrothermal Stability for CH₄/CO₂ Reforming, Ind.Eng.Chem. Res, 53 (6) (2014) 2189-2196. dx.doi.org/10.1021/ie403487c, IDS: AA8KE, IF. 2.843

59. Y.H. Guo, C. Xia, B.S. Liu*，Catalytic properties and stability of cubic mesoporous La_xNi_yO_z/KIT-6 catalysts for CO₂ reforming of CH₄，Chem.Eng.J. 237 (2014) 421–429. IDS: 292HD, (IF. 6.216)

58 Lei Junling ; Zhang Qiaoli; Zheng Shuai; Liu Bingsi*  Performance and structure of electrodes on ceramic-based electronic component by localized electroless copper plating,  Electronic Components & Materials, 32(7) (2013):57-59 (EI.).

57. Z.F. Zhang, B.S. Liu*, F. Wang, J.F. Li, Fabrication and performance of xMnyCe/hexagonal mesoporous silica sorbents with wormhole-like framework for hot coal gas desulfurization, Energy Fuels 27(12) (2013) 7754-7761. IDS: 278WO (IF. 3.091)

56. M. Tian, B. S. Liu, M. Hammonds, N. Wang, P. J. Sarre, A. S.-C. Cheung, Catalytic conversion of acetylene to polycyclic aromatic hydrocarbons (PAHs) over particles of pyroxene and alumina, Philosophical Transactions of the Royal Society A, 2013, 371, 20110590, published 3, June 2013. IDS 号: 156FV   IF.2.147

55. Y. Zhang, B.S. Liu*, F.M. Zhang, Z.F. Zhang，Formation of (Fe_xMn_2-x)O₃ solid solution and high sulfur capacity properties of Mn-based/M41 sorbents for hot coal gas desulfurization

J. Hazard. Mater. 248– 249 (2013) 81– 88 (SCI: 124DK) (IF. 6.065)

54. Fazle Subhan, B.S. Liu*, Q.L. Zhang, W.S. Wang，Production of ultra-low-sulfur gasoline: An equilibrium and kinetic analysis on adsorption of sulfur compounds over Ni/MMS sorbents，J. Hazard. Mater. 239-240 (2012) 370–380. (SCI: 033AC )  (IF. 6.065)

53. F.M. Zhang, B.S. Liu*, Y. Zhang, Y.H. Guo, Z.Y. Wan, F. Subhan, Highly stable and regenerable Mn-based/SBA-15 sorbents for desulfurization of hot coal gas, J. Hazard. Mater. 233-234 (2012) 219-227. (SCI: 998ZB)  (IF. 6.065)

52. B. S. Liu*, Y. H. Guo, and F. Yuan，Novel modification of a macroporous stainless steel tube by electroless Ni plating for use as a substrate for preparation of nanoporous carbon membranes, Ind. Eng. Chem. Res, 2012, 51, 9007−9015. (SCI: 967BB )，(IF. 2.843).

51. M. Tian, B.S. Liu, M. Hammonds, N. Wang, P.J. Sarre, A.S.-C. Cheung*， Formation of polycyclic aromatic hydrocarbons from acetylene over nanosized olivine/forsterite-type silicates，Phys. Chem. Chem. Phys. 14 (2012) 6603-6610. (SCI：928AI ,IF:4.493), DOI: 10.1039/c2cp23309f

50. B.S. Liu*, Z.Y. Wan, Y.P. Zhan, C.T. Au, Desulfurization of hot coal gas over high-surface-area LaMeO_x/MCM-41 sorbents, Fuel 98 (2012) 95-102.(SCI: 957HF, IF. 4.601)

49. Fazle Subhan, B.S. Liu*, Y. Zhang, X.G. Li, High desulfurization characteristic of lanthanum loaded mesoporous MCM-41 sorbents for diesel fuel,

Fuel Processing Technology 97 (2012) 71–78. (SCI：915QN, IF. 3.752)

48. Fazle Subhan, B.S. Liu*，Acidic sites and deep desulfurization performance of nickel supported mesoporous AlMCM-41 sorbents,

Chem.Eng.J., 178 (2011) 69– 77. (SCI：875JF, IF. 6.216)

47. B.S. Liu*, Y. Zhang, J.F. Liu, M. Tian, F.M. Zhang, C.T. Au, A. S.-C. Cheung*, Characteristic and mechanism of methane dehydroaromatization over Zn-Based /HZSM-5 catalysts under conditions of atmospheric pressure and supersonic jet expansion, J. Phys. Chem. C  115 (2011), 16954-16962. (SCI: 810SF, IF. 4.536)

46．Z.Y. Wan, B.S. Liu*, F.M. Zhang, X.H. Zhao, Characterization and performance of LaxFeyOz/MCM-41 sorbents during hot coal gas desulfurization，

Chem.Eng.J. 171 (2011), 594-602. (SCI：797GQ  IF. 6.216)

45. B.S. Liu*, X.N. Wei, Y.P. Zhan, R.Z. Chang, Fazle Subhan, C.T. Au, Preparation and desulfurization performance of LaMeO_x/SBA-15 for hot coal gas,

Appl. Catal. B  102 (1-2)(2011) 27-36  (SCI:718EG IF. 9.446)

44. B.S. Liu, L. Tian, L. Li, C.T. Au et al.

Performance of 3%Mo/ZSM-5 catalyst in the presence of water during methane aromatization in supersonic jet expansion,

AIChE J , 57 (2011) 1852-1859 (SCI；779TA  IF. 2.836)

43. Y.X. Wang, B.S. Liu*, C. Zheng,

Preparation and Adsorption Properties of Corncob-Derived Activated Carbon with High Surface Area,

J. Chem. Eng. Data, 55 (2010) 4669–4676 (SCI: 677UP IF. 2.089).

42．B.S. Liu*, F.M. Zhang, X.Y. Yang.

Formation and performance of ohmic contact electrodes on BaTiO₃-based thermistors by localized electroless Cu-plating，

Thin Solid Films 519 (2010) 373–377 (SCI: 676YI , IF. 1.935).