工作简历:
2021.08-至今 副教授 泉州师范学院 土壤改良与修复
2020.07-2020.09 博士后 密西根大学 环境微生物
2018.03-2020.06 博士后 橡树岭国家实验室 生物地球化学
2017.04-2018.02 博士后 暨南大学 水土污染修复与评估
论文著作:
1. Y.F. Wei, X.J. Liang.*H.H. Wu, J.M. Cen, Y.M. Ji. (2021).
Eficient phosphate removal by dendrite-like halloysite-zinc
oxide nanocomposites prepared via noncovalent hybridization.Appl. Clay Sci, 213: 106232. (IF=5.467,中科院1区)
2. C.s. Kang#, X.J. Liang#P. Dershoitz, W.Y. Gu, A. Schepers, A.Flatley, J. Lichtmanneger, H. Zischka, L.J. Zhang, X. Lu, B.H.Gu, J.C. Ledesma, D.J. Pelger, A.A. DiSpirito, J.D.Semrau*.
(2021). Evidence for methanobactin ”Theft"and novel
chalkophore production inmethanotrophs:impact on
methanotrophic-mediated methylmercury degradation. ISME. J.Accepted. (IF=10.302,中科院1区)
3. X.J. Liang," X. Lu, J.T. Zhao, L.Y. Liang, E. Zeng, B.H. Gu*.
(2019). A stepwise reduction approach reveals mercury
competitive binding and exchange reactions within natural
organic matter and mixed organic ligands. Environ. Sci.
Technol, 53: 10685-10694. (IF=9.028,中科院1区)
4. X. Lu, J.T. Zhao", X.J. Liang, L.J. Zhang, Y.R. Liu, X.P. Yin,
X.K. Li, B.H. Gu*. (2019). The application and potential artifactsof Zeeman cold vapor atomic absorption spectrometry in mercury stable isotope analysis. Environ. Sci. Technol. Lett,6: 165-170. (IF=7.653,中科院1区)
5. X.J. Liang, C.L. Guo*, Y.F. Wei, s.S. Liu, X.Y. Yi G.N. Lu, z.
Dang. (2018). Cosolubilization of phenanthrene and pyrene in single and binary surfactant micelles: experimental and
molecular dynamics simulations studies. J. Mol. Liq.,263: 1-9.(IF=6.165,中科院2区)
6. X.J. Liang.C.L Guo, C.J. Liao, s.s. Liu, L.Y. Wick, D. Peng,
X.Y. Yi, G.N. Lu, H. Yin, z. Lin, z. Dang*. (2017). Drivers and
applications of integrated clean-up technologies for surfactant-enhanced remediation of PAH-contaminated
environments. Environ. Pollut, 225: 129-140. (IF=8.071,中科
院1区)
7. X.J. Liang, M. Marchi, C.L. Guo, z. Dang, s. Abel*. (2016).
Atomistic simulation of solubilization of polycyclic
aromatic hydrocarbons in a sodium dodecyl sulfate micelle. Langmuir, 32:3645 3654. (F=3.882,中科院2区)
8. X.J. Liang, C.L. Guo, Y.F. Wei, W.J. Lin, X.Y. Yi, G.N. Lu, z.
Dang*. (2016). Cosolubilization synergism occurrence in
codesorption of PAH mixtures during surfactant-enhanced
remediation of contaminated soil. Chemosphere, 144:583-590. (IF=7.086,中科院2区)
9. X.J. Liang, M.L. Zhang, C.L. Guo*, s. Abel, X.Y. Yi, G.N. Lu, C.Yang, z. Dang*. (2014). Competitive solubllization of low-molecular-weight polycyclic aromatic hydrocarbons mixtures in single and binary surfactant micelles. Chem. Eng. J, 244: 522-530. (IF=13.273, 中科院1区)
10. Y.L Zhang, L.J Zhang, X.J, Liang, Q.Y. Wang, X.P. Yin, E.M.
Pierce, B.H Gu*. Competitive exchange between divalent metalions [Cu(Il), Zn(Il), Ca(Il)] and Hg(lI) bound to thiols and natural organic matter. J. Hazard. Mater. Accepted. (F=10.588,中科院1区)
11. L.J. Zhang, X.J. Liang, Q.Y. Wang, Y.L Zhang, w. Zheng, x.
Lu, E.M. Pierce, B.H. Gu*. (2020). Isotope exchange between
mercuric [Hg(I)] chloride and Hg(I) bound to minerals and
thiolate ligands: Implications for enriched isotope tracer studies.Geochim. Cosmochim. Acta., 292: 468-481.(IF=5.010,中科院1区)
12. Q.Y. Wang, L.J. Zhang, X.J. Liang, X.P. Yin, Y.L. Zhang, w.
Zheng, E.M. Pierce, B.H. Gu*. (2020). Rates and dynamics of
isotope exchange between dissolved elemental Hg(0) and
Hg(ll)-bound to organic and inorganic ligands. Environ. Sci.
Technol, 54: 15534-15545. (IF=9.028,中科院1区)
13. Y.Y. Li, N.L. Zhu, X.J. Liang, x. Bai, L.R. Zheng, J.T. Zhao*,
Y.F. Li, Z.Y. Zhang, Y.X. Gao. (2020). Silica nanoparticles
alleviate mercury toxicity via immobilization and inactivation of Hg(Il) in soybean (Glycine max). Environ. Scil: Nano, 7:1807-1817. (F= 8.131,中科院1区)
14. J.T Zhao, X.J. Liang, N.L. Zhu, L.M. Wang, Y.Y. Li, Y.Y.Li,L.R.
Zheng,Z.Y.Zhang, Y.X.Gao*, Z.F. Chai. (2020).Immobilization of mercury by nano elemental selenium and the underlying mechanisms in hydroponic-cultured garlic plant.Environ. Sci: Nano, 7: 1115-1125. (IF= 8.131,中科院1区)
15. Y.X. Li, N.L. Zhu, X.J. Liang, L.R. Zheng, C.X. Zhang, Y.F. Li,Z.Y. Zhang, Y.X. Gao, J.T. Zhao*. (2020). A comparative study on the accumulation, translocation and transformation of selenite, selenate, and SeNPs in a hydroponic-plant system.Ecotoxicol. Environ. Saf, 189: 109955. (IF=6.291, 中科院2区)
16. x.X. Yin, L.H. Wang, L.J. Zhang, H.M. Chen, X.J. Liang, x. Lu,A. DiSpirito, J.D. Semrau, and B.H. Gu*. (2020).Synergistic
effects of a chalkophore, methanobactin, on microbial
methylation of mercury. Appl. Environ. Microbiol, 86: e00122-20. (IF= 4.792,中科院2区)
17. x. Bai, Y.Y. Li, X.J. Liang, H. Li, J.T. Zhao*, Y.F. Li, Y.X. Gao.
(2019). Botanic metallomics of mercury and selenium: currentunderstanding of mercuny-selenium antagonism in plant with the traditional and advanced technology. Bull. Environ.Contam. Toxicol, 102: 628-634. (IF= 2.151,中科院4区)
18. Q.Y. Lu, K.Y. Chen, Y. Long, X.J. Liang, B.Y. He, L.H. Yu,J.S.
Ye*. (2019). Benzo(a)pyrene degradation by cytochrome P450 hydroxylase and the functional metabolism network of Bacillus thuringiensis. J. Hazard. Mater, 366: 329-337. (F=10.588,中科院1区)
19. F.J. Wu, C.L Guo*, s.S. Liu, X.J. Liang, G.N. Lu, z. Dang.
(2019). Pyrene degradation by Mycobacterium gilvum:
metabolites and proteins involved. Water, Air, Soil Pollut, 230:67. (IF= 2.520,中科院4区)
20. H.L Zhang, J.S. Ye, H.M. Qin, X.J. Liang, Y. Long*. (2019).
Molecular recognition and cell surface biochemical response of Bacillus thuringiensis on triphenyltin. Processes, 7: 358.(IF=2.753,中科院3区)
21. Y.F. Wei, X.J. Liang. C.L. Guo*, z. Dang. (2018).Competitive partitioning of phenanthrene in carbon nanomaterials and anionic and nonionic micelles. Colloids Surf, A, 553: 612-617.(IF=4.539,中科院2区)
22. D. Peng*, O.Y. Fan, X.J. Liang X.T. Guo, z. Dang, L.C. Zheng.(2018). Sorption of crude oil by enzyme-modifed corn stalk vs.chemically treated cormn stalk. J. Mol. Liq,255: 324-332.(IF=6.165,中科院2区)
23. s.S. Liu, C.L. Guo*, z. Dang, X.J. Liang. (2017).Comparative proteomics reveal the mechanism of Tween80 enhanced phenanthrene biodegradation by Sphingomonas sp. GY2B. Ecotoxicol. Environ. Saf., 137: 256-264. (IF=6.291, 中科院2区)
24. W.J. Lin, C.L. Guo*, H. Zhang, X.J. Liang, Y.F. Wei, G.N. Lu, z.Dang.(2016).Electrokinetic enhanced remediation
phenanthrene-contaminated soil combined with Sphingomonas sp. GY2B and Biosurfactant. Appl. Biochem. Biotechnol,178: 1325-1338. (IF=2.926,中科院4区)
25. C.J. Liao, W.D. Xu, G.N. Lu*, F.C. Deng, X.J. Liang, C.L. Guo, z.Dang*. (2016). Biosurfactant enhanced phytoremediation of soilscontaminated by crude oil using maize (Zea mays. L). Ecol. Eng.,92: 10-17. (IF=4.035,中科院2区)
26. J.H. Lf:C.L. Guo*, C.J. Liao, M.L. Zhang, X.J. Liang, G.N. Lu, C.Yang, z. Dang. (2016). A Bio-hybrid material for adsorption and degradation of phenanthrene: bacteria immobilized on sawdust coated with a silica layer. RSC Advances, 6: 107189-107199. (IF=3.361,中科院3区)
27. Y.F. Wei, X.J. Liang, W.J. Lin, C.L. Guo*, z. Dang*. (2015).
Clay mineral dependent desorption of pyrene from soils by
single and mixed anionic nonionic surfactants. Chem. Eng. J,264: 807-814. (IF=13.273,中科院1区)
28. Y.F. Wei, X.J. Liang, L. Tong, C.L. Guo*, z. Dang*. (2015).
Enhanced solubilization and desorption of pyrene from soils bysaline anionic-nonionic surfactant systems. Colloids Surf, A,468: 211-218. (IF=4.539,中科院2区)
29. C.J. Liao, X.J. Liang, G.N. Lu*, C.J. Thai, W.D. Xu, C.L. Guo,
C. Yang, z. Dang. (2015). Effect of surfactant amendment to
PAHs-contaminated soil for phytoremediation by maize (Zea mays L.). Ecotoxicol. Environ. Saf., 112: 1-6. (IF=6.291,中科院2区)
30. s.S. Liu, C.L. Guo*, X.J. Liang, F.J. Wu, z. Dang. (2016). Nonionic surfactants induced changes in cell characteristics and phenanthrene degradation ability of Sphingomonas sp. GY2B. Ecotoxicol. Environ. Saf, 129: 210-218. (IF=6.291,中科院2区)
31. X.J. Yang, G.N. Lu*, R.R. Yin, X.J. Liang, z. Dang*. (2015).
Cosolubilization of 4,4. dibromodiphenyl ether, naphthalene and pyrene mixtures in various surfactant micelles. Chem. Eng. J,260: 74-82. (IF=13.273, 中科院1区)
32. C.J. Liao, W.D. Xu, G.N. Lu*, X.J. Liang, C.L. Guo, C. Yang, z. Dang*. (2015). Accumulation of hydrocarbons by maize (Zea mays L.) in remediation of soils contaminated with crude oil. Int.J. Phytoremediat, 17: 693-700. (IF= =3.212,中科院3区)
33.张梦露,党志*,伍凤姬,梁旭军,郭楚玲,卢桂宁,杨琛. (2014).利用流式细胞术研究鞘氨醇单胞菌GY2B降解菲过程中细菌表面特性的变化.环境科学,35: 1449-1456.
#共同第一作者: *通讯作者
获奖情况:
福建省高层次人才C类人才
泉州市第三层次人才
集美大学“优秀毕业生”