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中国科学院广州地球化学研究所导师教师师资介绍简介-梁晓亮

本站小编 Free考研考试/2021-06-06


姓名:梁晓亮
性别:
职务:广东省矿物物理与材料研究开发重点实验室副主任
职称:特任研究员
学历:博士研究生
电话:
传真:
电子邮件:liangxl@gig.ac.cn
通讯地址:广东省广州市天河区五山科华街511号

简  历:
现为中国科学院矿物学与成矿学重点实验室特任研究员,广东省矿物物理与材料研究开发重点实验室副主任,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。主持国家自然科学基金4项,发表SCI论文近80多篇,其中以第一作者/通讯作者在American MineralogistChemical GeologyAngewandte Chemie International EditionApplied Catalysis B-EnvironmentalThe Journal of Physical ChemistryApplied Clay Science等国际主流刊物发表SCI论文28篇(JCR一区期刊22篇),相关论文SCI他引1300多次,获授权发明专利4件。曾获广东省自然科学奖一等奖(2018)、第17届侯德封矿物岩石地球化学青年科学家奖(2018)、中国科学院青年创新促进会优秀会员(2018)、中国科学院大学优秀博士论文奖(2014)、中国科学院院长特别奖(2012)和上海同济高廷耀环保技术发展基金会“青年博士杰出人才奖”(2012),入选国家自然科学基金委优青项目(2020)、广东省自然科学基金委杰青项目(2019)、广东省特支计划“百千万工程青年拔尖人才”(2017)和广州市“珠江科技新星”(2018)。

社会任职:
1.中国矿物岩石地球化学学会成因矿物学找矿矿物学专业委员会委员兼秘书; 2.广东省土壤学会理事兼土壤化学与土壤矿物学工作委员会主任。
研究方向:
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、模拟计算等技术在矿物结构与表面反应性研究中的应用。
获奖及荣誉:
1.国家自然科学基金委优秀青年科学基金(2020);
2.广东省杰出青年基金项目(2019);
3. 广东省自然科学奖一等奖(2018,排名第五);
4.第17届侯德封矿物岩石地球化学青年科学家奖(2018);
5. 中国科学院青年创新促进会优秀会员(2018);
6. 广州市“珠江科技新星”计划(2018);
7. 广东省特支计划“百千万工程青年拔尖人才”(2017);
8. 中国科学院大学优秀博士论文奖(2014);
9. 中国科学院院长特别奖(2012);
10.上海同济高廷耀环保技术发展基金会“青年博士杰出人才奖”(2012);
11.中国科学院研究生院优秀毕业生(2012);
12.华南师范大学优秀学生标兵/一等奖学金(2004,2005,2006);
13.广东省三好学生(2003)。
代表论著:
1.X.L. Liang, X.J. Lin, G.L. Wei, L.Y. Ma, H.P. He, D. Santos-Carballal, J.X. Zhu, R. L. Zhu, N.H.D. Leeuw. Competitive adsorption geometries for the arsenate As(V) and phosphate P(V) oxyanions on magnetite surfaces: Experiments and theory. American Mineralogist, 2020.
2. Y. Li, G.L. Wei, X.L. Liang*, C.H. Zhang, J.X. Zhu, Y.J. Arai. Metal Substitution-Induced Reducing Capacity of Magnetite Coupled with Aqueous Fe(II). ACS Earth and Space Chemistry 4(2020) 905-911.
3. P. Liu, X.L. Liang*, Y.L. Dang, J.K. He, A. Shirazi-Amin, L.A. Achola, S. Dissanayake, H.L. Chen, M.L. Fu, D.Q. Ye, S.L. Suib. Effects of Zr substitution on soot combustion over cubic fluorite-structured nanoceria: Soot-ceria contact and interfacial oxygen evolution. Journal of Environmental Science, (101)2021 293-303(封面文章).
4. H.L. Chen, G.L. Wei, X.L. Liang*, P. Liu, Y.F. Xi, J.X. Zhu. Facile surface improvement of LaCoO3 perovskite with high activity and water resistance towards toluene oxidation: Ca substitution and citric acid etching. Catalysis Science & Technology, (10)2020 5829-5839(封面文章).
5. 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.
6. 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.
7. 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.
8. 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.
9. 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.
10.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.
11.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.
12.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.
13.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.
14.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.
15.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.
16.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.
17.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.
18.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.
19.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.
20.X.L. Liang, Z.S. He, G.L. Wei, P. Liu, Y.H. Zhong, W. Tan, P.X. Du, J.X. Zhu, H.P. He*, J. Zhang, The distinct effects of Mn substitution on the reactivity of magnetite in heterogeneous Fenton reaction and Pb(II) adsorption, Journal of Colloid and Interface Science 426 (2014) 181-189.
21.X.L. Liang, Y.H. Zhong, S.Y. Zhu, H.P. He*, P. Yuan, J.X. Zhu, Z. Jiang, The valence and site occupancy of substituting metals in magnetite spinel structure Fe3-xMxO4 (M = Cr, Mn, Co and Ni) and their influence on thermal stability: An XANES and TG-DSC investigation, Solid State Sciences 15 (2013) 115-122.
22.X.L. Liang, Y.H. Zhong, W. Tan, J.X. Zhu, P. Yuan, H.P. He*, Z. Jiang, The influence of substituting metals (Ti, V, Cr, Mn, Co and Ni) on the thermal stability of magnetite, Journal of Thermal Analysis and Calorimetry 111 (2013) 1317-1324.
23.X.L. Liang, Z.S. He, Y.H. Zhong, W. Tan, H.P. He*, P. Yuan, J.X. Zhu, J. Zhang, The effect of transition metal substitution on the catalytic activity of magnetite in heterogeneous Fenton reaction: In interfacial view, Colloids and Surfaces a-Physicochemical and Engineering Aspects 435 (2013) 28-35.
24.X.L. Liang, Y.H. Zhong, S.Y. Zhu, L.Y. Ma, P. Yuan, J.X. Zhu, H.P. He*, Z. Jiang, The contribution of vanadium and titanium on improving methylene blue decolorization through heterogeneous UV-Fenton reaction catalyzed by their co-doped magnetite, Journal of Hazardous Materials 199 (2012) 247-254.
25.X.L. Liang, Y.H. Zhong, H.P. He*, P. Yuan, J.X. Zhu, S.Y. Zhu, Z. Jiang, The application of chromium substituted magnetite as heterogeneous Fenton catalyst for the degradation of aqueous cationic and anionic dyes, Chemical Engineering Journal 191 (2012) 177-184.
26.X.L. Liang, J. Li, J.B. Joo, A. Gutierrez, A. Tillekaratne, I. Lee, Y.D. Yin, F. Zaera*, Diffusion through the Shells of Yolk-Shell and Core-Shell Nanostructures in the Liquid Phase, Angewandte Chemie-International Edition 51 (2012) 8034-8036.
27.X.L. Liang, S.Y. Zhu, Y.H. Zhong, J.X. Zhu, P. Yuan, H.P. He*, J. Zhang, The remarkable effect of vanadium doping on the adsorption and catalytic activity of magnetite in the decolorization of methylene blue, Applied Catalysis B-Environmental 97 (2010) 151-159.
28.X.L. Liang, Y.H. Zhong, S.Y. Zhu, J.X. Zhu, P. Yuan, H.P. He*, J. Zhang, The decolorization of Acid Orange II in non-homogeneous Fenton reaction catalyzed by natural vanadium-titanium magnetite, Journal of Hazardous Materials 181 (2010) 112-120.
论文发表情况请参阅
https://www.researchgate.net/profile/Xiaoliang_Liang2/contributions。
授权专利:
1.梁晓亮,刘鹏,何宏平,陈汉林,朱建喜。一种坡缕石负载型铜锰氧化物及其制备方法和应用。国家发明专利。专利号: ZL 0.5。授权日期:2019年10月22日。
2. 梁晓亮,刘鹏,何宏平,谭伟,谭服鼎。一种用于热催化氧化甲醛的锰掺杂磁赤铁矿催化剂及其制备方法。国家发明专利。专利号: ZL 4.6。授权日期:2018年6月19日。
3. 戚飞鸿,梁晓亮,刘鹏,何宏平,杨士建,林枭举。一种用于热催化氧化甲苯的铁离子交换钛离子柱撑蒙脱石催化剂及其制备方法。国家发明专利。专利号:ZL 3.7。授权日期:2018年9月7日。
4. 朱润良,徐天缘,何宏平,朱建喜,梁晓亮,刘晶。一种钒酸铋插层蒙脱石可见光光催化材料的制备方法。国家发明专利。专利号:ZL20**。授权日期:2017年3月1日。


承担科研项目情况:
1.国家自然科学基金优秀青年项目,2021.1-2013.12,主持;
2. 国家自然科学基金面上项目,**,“磷酸根对稀土元素-矿物界面作用的制约”,2018.1-2021.12,主持;
3. 国家自然科学基金面上项目,**,“磁铁矿与Fe(II)的相互作用及其对环境污染物的还原性能研究”,2016.1-2019.12,主持;
4. 国家重点研发计划“稀土元素成矿系统与资源基地深部探测”课题“风化淋积过程稀土元素的分异及富集机制”,2017YFC**,2017.7-2021.6,专题负责人;
5. 广东省杰出青年项目,2020.1-2023.12,主持;
6. 中国科学院青年创新促进会优秀会员专项资助经费,2019.1-2021.12,主持;
7. 中国科学院前沿科学重点研究项目“2:1型层状硅酸盐矿物的生长机制及其制约因素”课题“类质同像置换对矿物结构、形貌与表面反应性的制约及机制”,QYZDJ-SSW-DQC023-2,2016.10-2020.12,主持;
8. 广州市珠江科技新星项目,9,“尖晶石型锰氧化物微结构调控及其热催化氧化典型挥发性有机物(VOCs)性能研究”,2018.4-2021.3,主持;
9. 国家自然科学基金青年科学基金项目,**,“类质同像置换对磁铁矿吸附-转化重金属性能的制约”,2014.1-2016.12,主持;
10.广东省自然科学基金研究团队项目,S20**,“多孔矿物结构与性能的调控及其对VOCs的吸附机制”,2013.10-2018.10,核心成员。



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