梁晓亮 - 中国科学院广州地球化学研究所 -

个人简介

1984年出生。现为中国科学院矿物学与成矿学重点实验室副研究员，广东省矿物物理与材料研究开发重点实验室副主任，硕士生导师，研究领域为矿物结构与表-界面反应性。2007年毕业于华南师范大学，获环境科学学士学位。2012年6月毕业于中国科学院广州地球化学研究所，获矿物学博士学位。2014年10月晋升为副研究员。期间，于2010年9月至2011年9月获国家留学基金委资助赴美国加州大学河滨分校进行合作研究

研究领域

1. 铁氧化物的矿物结构、表-界面物理化学与环境地球化学行为； 2. 表生成矿过程中的矿物学机制； 3. 先进谱学技术与模拟计算在矿物结构与表面反应性研究中的应用

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.X.L. Liang*, Y. Li, G.L. Wei, H.P. He, O.S. Stucki, L.Y. Ma, L.D. Pentrakova, M.R.T. Pentrak, J.X. Zhu, Heterogeneous reduction of 2-Chloronitrobenzene by Co-substituted magnetite coupled with aqueous Fe2+: Performance, factors, and mechanism. ACS Earth and Space Chemistry 3(2019) 728-737. 2.M.J. Yang, X.L. Liang, L.Y. Ma, J. Huang, H.P. He, J.X. Zhu, Adsorption of REEs on kaolinite and halloysite: A link to the REE distribution on clays in the weathering crust of granite. Chemical Geology 525(2019) 210-217. 3.H.L. Chen, G.L. Wei, X.L. Liang* P. Liu, H.P. He, Y.F. Xi, J.X. Zhu, The distinct effects of substitution and deposition of Ag in perovskite LaCoO3 on the thermally catalytic oxidation of toluene. Applied Surface Science 489(2019) 905-912. 4.Y.L. Xia, G.L. Wei, X.L. Liang*, J.X. Zhu, H.Y. Xian, X.L. Su, H.P. He, R.L. Zhu, The sequestration of gaseous Hg0 by sphalerite with Fe substitution: performance, mechanism and structure-activity relationship. The Journal of Physical Chemistry C 5 (2019): 2828-2836. 5.Y. Li, G.L. Wei, C.H. Zhang, X.L. Liang*, W.Chu*, H.P. He, J.W. Stucki, L.Y. Ma, X.J. Lin, J.X. Zhu, Remarkable effect of Co substitution in magnetite on the reduction removal of Cr(VI) coupled with aqueous Fe(II): Improvement mechanism and Cr fate. Science of The Total Environment 656 (2019) 400-408. 6.P. Liu, G.L. Wei, H.P. He, X.L. Liang*, H.L. Chen, Y.F. Xi, J.X. Zhu, The catalytic oxidation of formaldehyde over palygorskite-supported copper and manganese oxides: Catalytic deactivation and regeneration. Applied Surface Science 464 (2019): 287-293. 7.A. Amal, W. Chu*, X.L. Liang, Diphenamid degradation via sulfite activation under Visible LED using Fe (III) Impregnated N-doped TiO2 Photocatalyst. Applied Catalysis B: Environmental 244 (2019): 823-835. 8.P. Liu, G.L. Wei, X.L. Liang*, D. Chen, H.P. He, T.H. Chen, Y.F. Xi, H.l. Chen, D.H. Han, J.X. Zhu, Synergetic effect of Cu and Mn oxides supported on palygorskite for the catalytic oxidation of formaldehyde: Dispersion, microstructure, and catalytic performance, Applied Clay Science 161 (2018) 265-273. 9.Y. Li, G.L. Wei, H.P. He, X.L. Liang*, W. Chu, D.Y. Huang, J.X. Zhu, W. Tan, Q.X. Huang, Improvement of zinc substitution in the reactivity of magnetite coupled with aqueous Fe(II) towards nitrobenzene reduction, Journal of Colloid and Interface Science 517 (2018) 104-112. 10.J.H. Zhang, C.Y. Zhang, G.L. Wei, C.H. Zhang, J.X. Zhu, H.P. He, X.L. Liang*, Catalytic Activity of Titanomagnetite in Heterogeneous Fenton Reaction: Contribution from Structural Fe2+ and Fe3+, Journal of Nanoscience and Nanotechnology 17 (2017) 7015-7020. 11.J.H. Zhang, C.H. Zhang, G.L. Wei, Y. Li, X.L. Liang*, W. Chu, H.P. He, D.Y. Huang, J.X. Zhu, R.L. Zhu, Reduction removal of hexavalent chromium by zinc-substituted magnetite coupled with aqueous Fe(II) at neutral pH value, Journal of Colloid and Interface Science 500 (2017) 20-29. 12.P. Liu, H.P. He, G.L. Wei, D. Liu, X.L. Liang*, T.H. Chen, J.X. Zhu, R.L. Zhu, An efficient catalyst of manganese supported on diatomite for toluene oxidation: Manganese species, catalytic performance, and structure activity relationship, Microporous and Mesoporous Materials 239 (2017) 101-110. 13.X.L. Liang, G.L. Wei, J. Xiong, F.D. Tan, H.P. He*, C.C. Qu, H. Yin, J.X. Zhu, R.L. Zhu, Z.H. Qin, J. Zhang, Adsorption isotherm, mechanism, and geometry of Pb(II) on magnetites substituted with transition metals, Chemical Geology 470 (2017) 132-140. 14.P. Liu, H.P. He, G.L. Wei, X.L. Liang*, F.H. Qi, F.D. Tan, W. Tan, J.X. Zhu, R.L. Zhu, Effect of Mn substitution on the promoted formaldehyde oxidation over spinel ferrite: Catalyst characterization, performance and reaction mechanism, Applied Catalysis B-Environmental 182 (2016) 476-484. 15.X.L. Liang, F.H. Qi, P. Liu, G.L. Wei, X.L. Su, L.Y. Ma, H.P. He*, X.J. Lin, Y.F. Xi, J.X. Zhu, R.L. Zhu, Performance of Ti-pillared montmorillonite supported Fe catalysts for toluene oxidation: The effect of Fe on catalytic activity, Applied Clay Science 132 (2016) 96-104. 16.X.L. Liang, P. Liu, H.P. He*, G.L. Wei, T.H. Chen, W. Tan, F.D. Tan, J.X. Zhu, R.L. Zhu, The variation of cationic microstructure in Mn-doped spinel ferrite during calcination and its effect on formaldehyde catalytic oxidation, Journal of Hazardous Materials 306 (2016) 305-312. 17.W. Li, X.L. Liang, P.F. An, X.H. Feng, W.F. Tan, G.H. Qiu, H. Yin, F. Liu*, Mechanisms on the morphology variation of hematite crystals by Al substitution: The modification of Fe and O reticular densities, Scientific Reports 6 (2016). 18.G.L. Wei, X.L. Liang, D.Q. Li*, M.N. Zhuo, S.Y. Zhang, Q.X. Huang, Y.S. Liao, Z.Y. Xie, T.L. Guo, Z.J. Yuan, Occurrence, fate and ecological risk of chlorinated paraffins in Asia: A review, Environment International 92-93 (2016) 373-387. 19.G.L. Wei, X.L. Liang, Z.S. He, Y.S. Liao, Z.Y. Xie, P. Liu, S.C. Ji, H.P. He, D.Q. Li*, J. Zhang, Heterogeneous activation of Oxone by substituted magnetites Fe3-xMxO4 (Cr, Mn, Co, Ni) for degradation of Acid Orange II at neutral pH, Journal of Molecular Catalysis a-Chemical 398 (2015) 86-94. 20.X.L. Liang, Z.S. He, W. Tan, P. Liu, J.X. Zhu, J. Zhang, H.P. He*, The oxidation state and microstructural environment of transition metals (V, Co, and Ni) in magnetite: an XAFS study, Physics and Chemistry of Minerals 42 (2015) 373-383.