教育经历
  • 2012-9 — 2017-7
    北京大学
    环境科学
  • 2008-9 — 2012-6
    中国矿业大学(北京)
    环境工程
工作经历
  • 2021-9 — 至今
     山东大学环境研究院 研究员 
  • 2021-6 — 2021-8
     上海交通大学 访问学者 
  • 2017-7 — 2021-4
     University of California San Diego 博士后 
研究方向
论文

(1) Huang, L.B., Frank, E.S., Shrestha, M., Riahi, S., Tobias, D.J.*, Grassian, V.H.* Heterogeneous interactions of prevalent indoor oxygenated organic compounds on hydroxylated SiO2 surfaces. Environmental Science & Technology, 55, 6623–6630, 2021

(2) Huang, L.B., Frank, E.S. (co-first author), Riahi, S., Tobias, D.J.*, Grassian, V.H.* Adsorption of constitutional isomers of cyclic monoterpenes on hydroxylated silica surfaces. The Journal of Chemical Physics, 154, 124703−124711, 2021

(3) Huang, L.B., Liu, T.S., Grassian, V.H.* Radical-initiated formation of aromatic organosulfates and sulfonates in the aqueous phase. Environmental Science & Technology, 54, 11857−11864, 2020

(4) Huang, L.B., Coddens, E.M., Grassian, V.H.* Formation of organosulfur compounds from aqueous phase reactions of S(IV) with methacrolein and methyl vinyl ketone in the presence of transition metal ions. ACS Earth and Space Chemistry, 3, 1749–1755, 2019

(5) Coddens, E.M., Huang, L.B. (co-first author), Wong, C., Grassian, V.H.* Influence of glyoxal on the catalytic oxidation of S (IV) in acidic aqueous media. ACS Earth and Space Chemistry, 3, 142–149, 2019

(6) Huang, L.B., Cochran, R.E., Coddens, E.M., Grassian, V.H.* Formation of organosulfur compounds through transition metal ion-catalyzed aqueous phase reactions. Environmental Science & Technology Letters, 5, 315–321, 2018

(7) Huang, L.B., Zhao, Y., Li, H., Chen, Z.M.* Hydrogen peroxide maintains the heterogeneous reaction of sulfur dioxide on mineral dust proxy particles. Atmospheric Environment, 141, 552−559, 2016

(8) Huang, L.B., Zhao, Y., Li, H., Chen, Z.M.* Kinetics of heterogeneous reaction of sulfur dioxide on authentic mineral dust: effects of relative humidity and hydrogen peroxide. Environmental Science & Technology, 49, 10797−10805, 2015

(9) Wu H.B., Huang, L.B., Rose A., Grassian V.H.* Impact of surface adsorbed biologically and environmentally relevant coatings on TiO2 nanoparticle reactivity. Environmental Science: Nano, 7, 3783−3793, 2020

(10) Xing Y.N, Li, H., Huang, L.B., Wu, H.H., Shen, H.Q., Chen, Z.M.* The production of formaldehyde and hydroxyacetone in methacrolein photooxidation: New insights into mechanism and effects of water vapor. Journal of Environmental Sciences, 66, 1–11, 2018

(11) Wu, H.H., Wang, Y., Li, H., Huang, L.B., Huang, D., Shen, H.Q., Xing, Y.N., Chen, Z.M.* The OH-initiated oxidation of atmospheric peroxyacetic acid: a study of experiment and model. Atmospheric Environment, 164, 61–70, 2017

(12) Wang, Y., Chen, Z.M.*, Wu, Q.Q., Liang, H., Huang, L.B., Li, H., Lu, K.D., Wu, Y.S., Dong, H.B., Zeng, L.M., and Zhang, Y.H. Observation of atmospheric peroxides during Wangdu Campaign 2014 at a rural site in the North China Plain. Atmospheric Chemistry and Physics, 16, 10985–11000, 2016

(13) Li, H., Chen, Z.M.*, Huang, L.B., Huang, D. Organic peroxides' gas-particle partitioning and rapid heterogeneous decomposition on secondary organic aerosol. Atmospheric Chemistry and Physics, 16, 1837−1848, 2016

(14) Shen, X.L., Wu, H.H., Zhao, Y., Huang, D., Huang, L.B., Chen, Z.M.* Heterogeneous reactions of glyoxal on mineral particles: A new avenue for oligomers and organosulfate formation. Atmospheric Environment, 131, 133−140, 2016

(15) Rao, Z.H., Chen, Z.M.*, Liang, H., Huang, L.B., Huang, D. Carbonyl compounds over urban Beijing: Concentrations on haze and non-haze days and effects on radical chemistry. Atmospheric Environment, 124, 207−216, 2016

(16) Wu, Q.Q., Huang, L.B., Liang, H., Zhao, Y., Huang, D., Chen, Z.M.* Heterogeneous reaction of peroxyacetic acid and hydrogen peroxide on ambient aerosol particles under dry and humid conditions: kinetics, mechanism and implications. Atmospheric Chemistry and Physics, 15, 6851−6866, 2015

(17) Zhao, Y., Huang, D., Huang, L.B., Chen, Z.M.* Hydrogen peroxide enhances the oxidation of oxygenated volatile organic compounds on mineral dust particles: a case study of methacrolein. Environmental Science & Technology, 48, 10614−10623, 2014

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