获奖情况:
1 “新型多齿螯合重金属捕集剂及应用”获得2015年度中国石油和化学工业协会科技进步三等奖;
2 “高硬度高腐蚀性循环水节水减排技术”获得2009年度中国石油和化学工业协会科技进步三等奖;
通过的省级鉴定:
夏明珠,雷武,王风云,程寿康. 高硬度高腐蚀性循环水的节水减排处理技术,鉴定日期:2007年11月,组织鉴定单位:江苏省教育厅。该技术获中国化学化工学会2009年度科技进步三等奖
雷武,夏明珠,王风云. 连铸结晶器软水系统的非钼低磷缓蚀处理技术,鉴定日期:2007年11月,组织鉴定单位:江苏省教育厅
近五年共发表SCI论文200余篇,近五年以通讯作者发表SCI论文100余篇,以下论文为通讯作者)
[1] Tahir Muhmood , Mingzhu Xia*, Wu Lei and Fengyun Wang*.Erection of duct-like graphitic carbon nitride with enhanced photocatalytic activity for ACB photodegradation.J. Phys. D: Appl. Phys. 51 (2018) 065501
[2]Tahir Muhmood, Mingzhu Xia*, Wu Lei, Fengyun Wang*, andMuhammad Asim Khan.Design of graphene poplatelets /grap hitic carbon nitrideheterojunctions by vacuum tube with enhanced photocatalytic and electrochemical response.Eur. J. Inorg. Chem. 10.1002/ejic.201800093
[3] Zhiren Zhao, Weiyan Zhang,, Xinlin Shen, Tahir Muhmood, Mingzhu Xia,*Wu Lei, Fengyun Wang*, Muhammad Asim Khana.Preparation of g-C3N4/TiO2/BiVO4 composite and its application inphotocatalytic degradation of pollutant from TATB production undervisible light irradiation.Journal of Photochemistry and Photobiology A: Chemistry 358 (2018) 246–255
[4] Zhiren Zhao, Kebin Li, Tahir Muhmood , Mingzhu Xia* and Fengyun Wang.Facile approach to synthesis the curly leaf-like Nano-sheets ofg-C3N4 with enhanced photocatalytic ability.Mater. Res. Express 5 (2018) 035507
[5] Zahira Bano, Tahir Muhmood , Mingzhu Xia*,Wu Lei and Fengyun Wang*,Ultrathin nanosheets of graphitic carbon nitride heterojunction withflower like Bi2O3 for photodegradation of organic pollutants.Mater. Res. Express 5 (2018) 055030.
[6] Muhammad Asim Khan, Sadaf Mutahir, Fengyun Wang?, Hongjing Zhen, Wu Lei, Mingzhu Xia?,Yu Ouyang, Tahir Muhmood.
Synthesis of environmentally encouraged, highly robust pollutants reduction3-D system consisting of Ag/g-C3N4 and Cu-complex to degrade refractorypollutants.Journal of Photochemistry & Photobiology A: Chemistry(2018)
[7] Muhammad Asim Khan, Sadaf Mutahir, Fengyun Wang* Wu Lei, and Mingzhu Xia*.Sensitization of TiO2 nanosheets with Cu-biphenylamine frame work toenhance photocatalytic degradation performance of toxic organic contaminants: Synthesis, mechanism and kinetic studies.Nanotechnology(2018)
[8] Tahir Muhmood,* Mingzhu Xia, Wu Lei, Fengyun Wang* and Muhammad Asim Khan.Efficient and stable ZrO2/Fe modified hollow-C3N4for photodegradation of the herbicide MTSM†.Cite this: RSC Adv., 2017, 7, 3966
[9] Muhammad Asim Khan, * Mingzhu Xia, Sadaf Mutahir, Tahir Muhmood,Wu Lei and Fengyun Wang*.Encapsulating nano rods of copper–biphenylamines framework on g-C3N4photocatalysts for visible-light-driven organicdyes degradation: promoting charge separationefficiency.CatalysisScience &TechnologyCite this: DOI: 10.1039/c7cy00420f
[10] Tahir Muhmood, Mingzhu Xia*, Wu Lei, Fengyun Wang*,Yu Ouyang.Enhanced photo-electrochemical, photo-degradation and chargeseparation ability of graphitic carbon nitride (g-C3N4) by self-type metal free heterojunction formation for antibiotic degradation.Journal of Photochemistry and Photobiology A: Chemistry 348 (2017) 118–124
[11] Wenyan Shi, Yuting Chu,Mingzhu Xia*, Wu Lei, Fengyun Wang. Crystal morphology prediction of 1,3,3-trinitroazetidine in ethanol solvent by molecular dynamics simulation[J]. Journal of Molecular Graphics and Modelling, 2016, 3: 94-100.
[12] Tianyi Wang, Chunmei Zheng,Xuedong Gong*, Mingzhu Xia*. Theoretical studies of the structure, stability, and detonation properties of vicinal-tetrazine 1,3-dioxide annulated with a five-membered eterocycle. 2. Annulation with a pyrazole ring[J]. Journal of Molecular Modelling, 2015, 21(10)269-278.
[13] Tianyi Wang, Chunmei Zheng,an Liu, Xuedong Gong*, Mingzhu Xia*. Theoretical studies of the structure, stability, and detonation properties of vicinal-tetrazine 1,3-dioxide annulated with a five-membered heterocycle. 1. Annulation with a triazole ring [J]. Journal of Molecular Modelling, 2015, 21: 201(1-9).
[14] Gang Chen, Chunyu Chen, Mingzhu Xia*, Wu Lei, Fengyun Wang and Xuedong Gong.A study of the solvent effect on the crystal morphology of hexogen by means of molecular dynamics simulations[J]. The Royal Society of Chemistry. 2015, 5:25581-25589.
[15] XionghuiWu, YutingChu, ChunmeiZheng, TianyiWang, WuLei, FengyunWang, MingzhuXia*. Synthesis and theoretical prediction of detonation properties of 3-azido-4-[(4-nitrofurazan-3-yl) -ONN-azoxy]furazan[J]. Chemistry of Heterocyclic Compounds. 2015, 51(8):760-762.
[16] Gang Chen, Mingzhu Xia*, Wu Lei, Fengyun Wang, Xuedong Gong. Prediction of crystal morphology of cyclotrimethylene trinitramine in the solvent medium by computer simulation:A case of cyclohexanone solvent[J].J. Phys. Chem. A, 2014, 118(49):11471-11478
[17] Gang Chen, Mingzhu Xia*, Wu Lei, Fengyun Wang, Xuedong Gong. Molecular dynamics investigation of the effect of solvent adsorption on crystal habits of hexogen[J]. Canadian Journal of Chemistry, 2014,92(9):849-854
[18] Gang Chen, Wenyan Shi, Mingzhu Xia*, Wu Lei, Fengyun Wang, Xuedong Gong. Theoretical study of solvent effects on RDX crystal quality and sensitivity using an implicit solvation model[J]. Journal of Molecular Modelling, 2014, 20(7): 1-9.
[19] Tianyi Wang, Chunmei Zheng, Junqing Yang, Xueli Zhang, Xuedong Gong*, Mingzhu Xia*.Theoretical studies on a new high energy density compoud 6-amino-7-nitropyrazino[2,3-e] [1,2,3,4] tetrazine 1,3,5-trioxide(ANPTTO)[J]. Journal of Molecular Modelling, 2014,20(6):2261-1-2261-10.
[20] Tianyi Wang, Tao Zhang, Liwen Xu, Xionghui Wu, Xuedong Gong*, Mingzhu Xia*. Theoretical studies on vicinal-tetrazine compounds: furoxano-1,2,3,4-tetrazine-1,3,5-trioxide(FTTO-α) and furoxano-1,2,3,4-tetrazine-1,3,7-trioxide(FTTO-β)[J]. Journal of Molecular Modelling,2014, 20(12):2516-1-2516-10.
[21] Wenyan Shi, Mingzhu Xia*, Wu Lei, Fengyun Wang. Solvent effect on the crystal morphology of 2,6-diamino-3,5-dinitropyridine-1-oxide: A molecular dynamics simulation study[J]. Journal of Molecular Graphics and Modelling, 2014, 50: 71-77.
[22] Wenyan Shi, Mingzhu Xia*, Wu Lei, Fengyun Wang. Molecular Dynamics Simulation of polyether polyamino methylene phosphonates as an inhibitor of anhydrite crystal[J].Desalination, 322(2013):137-143.
[23] Gang Chen, Mingzhu Xia, Wu Lei, Fengyun Wang, Xuedong Gong. A study of the solvent effect on the morphology of RDX crystal by molecular modeling method[J]. Journal of Molecular Modeling. 2013, 19(12): 5397–5406.
[24] 石文艳,王风云,夏明珠*,雷武. 2,6-二氨基-3,5-二硝基吡啶-1-氧化物晶体形貌的MD模拟[J].含能材料,2016,24(1): 19~26.
[25] Tahir Muhmood a, Mingzhu Xia a,⇑, Wu Lei a, Fengyun Wang a,⇑, Amjad Mahmood.Fe-ZrO2 imbedded graphene like carbon nitride for acarbose (ACB)photo-degradation intermediate study.Advanced Powder Technology 29 (2018) 3233–3240
[26] Tahir Muhmood, Mingzhu Xia?, Wu Lei, Fengyun Wang?.Under vacuum synthesis of type-I heterojunction between red phosphorusand graphene like carbon nitride with enhanced catalytic, electrochemicaland charge separation ability for photodegradation of an acute toxicitycategory-III compound.Applied Catalysis B: Environmental 238 (2018) 568–575
[27] Youliang Wang, Mingzhu Xia,* Kebin Li, Xinlin Shen, Tahir Muhanmood and Fengyun Wang.* Facile solvothermal synthesis of a high-efficiency CNNs/Ag/AgCl plasmonic photocatalyst【J】Phys.Chem.Chem.Phys.,2016, 18, 27257
[28] Jianzhe Ma, Yang Lei, Muhammad Asim Khan, Fengyun Wang ?, Yuting Chu, Wu Lei, Mingzhu Xia ?, Sidi Zhu.Adsorption properties, kinetics & thermodynamics of tetracycline oncarboxymethyl-chitosan reformed montmorillonite.International Journal of Biological Macromolecules 124 (2019) 557–567
[29] Along Wang, Yuting Chu, Tahir Muhmood, Mingzhu Xia,* Ying Xu, Lei Yang, Wu Lei,and Fengyun Wang*.Adsorption Properties of Pb2+ by Amino Group’s FunctionalizedMontmorillonite from Aqueous Solutions.. Chem. Eng. Data 2018, 63, 2940−2949
[30] Ying Xu, Muhammad Asim Khan, Fengyun Wang?, Mingzhu Xia?, Wu Lei.Novel multi amine-containing Gemini surfactant modi?ed montmorilloniteas adsorbents for removal of phenols.Applied Clay Science 162 (2018) 204–213
[31] Muhammad Asim Khan, Sadaf Mutahir, Fengyun Wang?, Wu Lei, Mingzhu Xia?, Sidi Zhu.Facile one-step economical methodology of metal free g-C3N4 synthesis withremarkable photocatalytic performance under visible light to degrade trans
resveratrol.Journal of Hazardous Materials 367 (2019) 293–303
[32] Muhammad Asim Khana, Sadaf Mutahira, Fengyun Wanga,?, Jin-Wei Zhoub, Wu Leia,Mingzhu Xiaa,?Facile synthesis of CNS/TNS sensitized with Cu biphenylamine frameworks for remarkable photocatalytic activity for organic pollutants degradation
and bacterial inactivation.Solar Energy 186 (2019) 204–214
[33] Hongjing Zhen, Muhammad Asim Khan, Mingzhu Xia?, Wu Lei, Fengyun Wang?Controllable synthesis of ?ower-root shaped Bi2O3/Bi2MoO6heterostructures as an e?cient photocatalyst under visible light irradiationJournal of Photochemistry & Photobiology A: Chemistry 372 (2019) 78–88
[34] Sidi Zhu, Mingzhu Xia?, Yuting Chu, Muhammad Asim Khan, Wu Lei, Fengyun Wang?,Tahir Muhmood, AlongWang.Adsorption and Desorption of Pb(II) on L-Lysine Modi?ed Montmorilloniteand the simulation of Interlayer StructureApplied Clay Science 169 (2019) 40–47
[35] Xiaoya Wang · Muhammad Asim Khan · Mingzhu Xia* · Sidi Zhu · Wu Lei · Fengyun Wang*.Synthesis of RGO and g-C3N4 hybrid with WO3/Bi2WO6 to boost degradation of nitroguanidine under visible light irradiation.Journal of Materials Science: Materials in Electronics (2019) 30:5503–5515
[36] Juan Zhang & Muhammad Asim Khan & Mingzhu Xia* & Abdelnasir Mahmoud Abdo & Wu Lei & Chuan Liao&
Fengyun Wang*.Facile hydrothermal synthesis of magnetic adsorbent CoFe2O4/MMTto eliminate antibiotics in aqueous phase: tetracycline and ciprofloxacinEnvironmental Science and Pollution Research (2019) 26:215–226
[37] Pingping Li, Muhammad Asim Khan, Mingzhu Xia**, Wu Lei, Sidi Zhu, Fengyun Wang∗E?cient preparation and molecular dynamic (MD) simulations of Gemini surfactant modi?ed layered montmorillonite to potentially remove
emerging organic contaminants from wastewater.Ceramics International 45 (2019) 10782–10791
[38] Pingping Li, Hongling Zhang, Mingzhu Xia**, Fengyun Wang, Sidi Zhu, Wu Lei.The synergistic effect and microscopic mechanism of co-adsorption of three emerging contaminants and copper ion on gemini surfactant modified
montmorillonite.Ecotoxicology and Environmental Safety 184 (2019) 109610
[39] Yuting Chu, Muhammad Asim Khan, Fengyun Wang, Mingzhu Xia* , Wu Lei, Sidi Zhu. Kinetics and equilibrium isotherms of adsorption of Pb(II) and Cu(II)onto raw and arginine-modi?ed montmorillonite. Advanced Powder Technology 30 (2019) 1067–1078
[40] Muhammad Asim Khan, Sadaf Mutahir, Fengyun Wang?, Wu Lei, Mingzhu Xia?, Sidi Zhu.Facile one-step economical methodology of metal free g-C3N4 synthesis with remarkable photocatalytic performance under visible light to degrade transresveratrol.Journal of Hazardous Materials 367 (2019) 293–303
[41] Muhammad Asim Khana, Sadaf Mutahira, Fengyun Wanga,?, Jin-Wei Zhoub, Wu Lei,Mingzhu Xiaa,?Facile synthesis of CNS/TNS sensitized with Cu biphenylamine frameworksfor remarkable photocatalytic activity for organic pollutants degradation
and bacterial inactivation.Solar Energy 186 (2019) 204–214
[42] Lin Dong, Sidi Zhu, Mingzhu Xia?, Yuting Chu, Fengyun Wang?, Wu Lei.Molecular dynamics simulations of the binging a?nity of 1-hydroxyethane-1, 1-diphosphonic acid (HEDP) with nano-hydroxyapatite and the uptake of
Cu2+ by HEDP-HAP hybrid systems.Journal of Hazardous Materials 383 (2020) 121206
[43] Yuting Chu, Sidi Zhu, Fengyun Wang,* Wu Lei, Mingzhu Xia,* and Chuan Liao. Tyrosine-Immobilized Montmorillonite: An E?cient Adsorbent for Removal of Pb2+ and Cu2+ from Aqueous Solution. J. Chem. Eng. Data 2019, 64, 8, 3535-3546
[44] Chenlu Fu , Hongling Zhang , Mingzhu Xiaa,∗∗, Wu Lei , Fengyun Wang,∗∗∗ The single/co-adsorption characteristics and microscopic adsorption mechanism of biochar-montmorillonite composite adsorbent for pharmaceutical emerging organic contaminant atenolol and lead ions .Ecotoxicology and Environmental Safety 187 (2020) 109763
[45] Jianzhe Ma, Muhammad Asim Khan, Mingzhu Xia ?, Chenlu Fu, Sidi Zhu, Yuting Chu, Wu Lei, Fengyun Wang ?Effective adsorption of heavy metal ions by sodium lignosulfonate reformed montmorillonite.International Journal of Biological Macromolecules 138 (2019) 188–197
[46] Yuting Chu, Muhammad Asim Khan, Sidi Zhu,a Mingzhu Xia,* Wu Lei, Fengyun Wanga* and Ying Xu. modification of organo-montmorillonite with Gemini surfactant containing four ammonium cations: molecular dynamics (MD) simulations and adsorption capacity for copper ions. J Chem Technol Biotechnol 2019; 94: 3585–3594
[47] Xia Wan, Muhammad Asim Khan, Fengyun Wang∗, Mingzhu Xia∗, Wu Lei, Sidi Zhu, Chenlu Fu, Yong Ding.Facile synthesis of protonated g-C3N4 and acid-activated montmorillonite composite with efficient adsorption capacity for PO4 3− and Pb(II) . Chemical Engineering Research and Design 1 5 2 ( 2 0 1 9 ) 95–105
[48] Monaam Ben Ali , Fengyun Wang ,⇑ , Rabah Boukherroub b , Wu Lei a , Mingzhu Xia a,⇑ acid-doped polyaniline nanofibers-clay mineral for efficient adsorption of copper (II) ions. Journal of Colloid and Interface Science 553 (2019) 688–698
[49] Monaam Ben Ali, Fengyun Wang, Rabah Boukherroub, Mingzhu Xia.High performance of phytic acid-functionalized spherical poly-phenylglycine particles for removal of heavy metal ions. Applied Surface Science https://doi.org/10.1016/j.apsusc.2020.146206
[50] Hongling Zhang, Jianzhe Ma, Fengyun Wang, Yuting Chu, Lei Yang, Mingzhu Xia*. Mechanism of carboxymethyl chitosan hybrid montmorillonite and adsorption of Pb(II) and Congo red by CMC-MMT organic-inorganic hybrid composite.International Journal of Biological Macromolecules 149 (2020) 1161–1169
[51] Zahira Bano , R.M. Yousaf Saeed , Sidi Zhu , MingZhu Xia **, Shuai Mao , Wu Lei ,
Fengyun Wang *. CuS nanospheres decorated rGO aerogel for high photocatalytic activity towards Cr(VI) and organic pollutants.Chemosphere 246 (2020) 125846
[52] Yuting Chu, Sidi Zhu, Mingzhu Xia,⇑, Fengyun Wang,⇑, Wu Lei-montmorillonite composite – A novel material for ef?cient adsorption of lead ions.Advanced Powder Technology,33(2020)
[53] Sidi Zhu, Muhammad Asim Khan, Fengyun Wang, Zahira Bano, Mingzhu Xia.Rapid Removal of Toxic Metals Cu2+ and Pb2+ by Amino Trimethylene Phos-phonic Acid Intercalated Layered Double Hydroxide: A Combined Experimen-
tal and DFT study. Chemical Engineering Journal. 392(2020)123711 https://doi.org/10.1016/j.cej.2019.123711
[54] Yuting Chu,†,‡ Muhammad Asim Khan,‡ Mingzhu Xia,*,‡ Wu Lei,‡ Fengyun Wang,*,‡ and Sidi ZhuSynthesis and Mechanism of Adsorption Capacity of Modi?ed Montmorillonite with Amino Acids for 4?Acetaminophenol Removal
from Wastewaters.J. Chem. Eng. Data 64(2019)708-717
[55] Yuting Chua,b, Muhammad Asim Khanb,∗, Mingzhu Xiab, Wu Leib,Fengyun Wangb,∗, Sidi Zhub, Xin YanaSynthesis and micro-mechanistic studies of histidine modi?ed montmorillonite for lead(II) and
copper(II) adsorption from wastewater.Chemical Engineering Research and Design 1 5 7 ( 2 0 2 0 ) 142–152
[56] Xiaojie Fang, Sidi Zhu, Jianzhe Ma, Fengyun Wang*, Haihua Xu, Mingzhu Xia*The facile synthesis of zoledronate functionalized hydroxyapatite amorphous hybrid nanobiomaterial and its excellent removal performance
on Pb2+ and Cu2+.Journal of Hazardous Materials 392 (2020) 122291
[57] Yuting Chu, Sidi Zhu, Fengyun Wang,* Wu Lei, Mingzhu Xia,* and Chuan Liao-Immobilized Montmorillonite: An E?cient Adsorbent for Removal of Pb2+ and Cu2+ from Aqueous Solution.J. Chem. Eng. Data 2019, 64, 3535−3546
[58] Xin Lu1 | Fengyun Wang1 | Wu Lei2 | Mingzhu Xia2*.The synthesis and modification of highly fluorescent carbon quantum dots for reversible detection of water-soluble phosphonate-1-hydroxyethane-1,1-diphosphonic acid by fluorescence spectroscopy.Luminescence,DOI: 10.1002/bio.3935
[59] Zahira Banoa, Shuakat Ali Mazarib, R.M. Yousaf Saeeda, Muhammad Amjad Majeeda,Mingzhu Xiaa,*, Abdul Qayoom Memonb, Rashid Abrob,*, Fengyun Wanga.Water decontamination by 3D graphene based materials: A review.Journal of Water Process Engineering 36 (2020) 101404
[60] Jianzhe Ma, Mingzhu Xia*, Sidi Zhu, Fengyun Wang.A new alendronate doped HAP nanomaterial for Pb2+, Cu2+ and Cd2+e?ect absorption.Journal of Hazardous Materials 400 (2020) 123143
[61] Haihua Xu & Xinlin Shen & Muhammad Asim Khan &Fengyun Wang & Wu Lei & Mingzhu Xia.Facile synthesis of rock-like Ag2ZrO3 decorated with TiO2 nanoparticles heterostructures with highly enhanced visible-light photocatalytic properties.J Nanopart Res (2020) 22:60 https://doi.org/10.1007/s11051-020-4768-y
[62] Hongling Zhang, Jianzhe Ma b, Fengyun Wang, Yuting Chu, Lei Yang, Mingzhu Xia*.Mechanism of carboxymethyl chitosan hybrid montmorillonite and adsorption of Pb(II) and Congo red by CMC-MMT organic-inorganichybrid composite.International Journal of Biological Macromolecules 149 (2020) 1161–1169
[63] Hongling Zhang,⇑, Jianzhe Ma, Mingxing Shi b, Mingzhu Xia,⇑, Fengyun Wang⇑, Chenlu Fu.Adsorption of two b-blocker pollutants on modi?ed montmorillonite with environment-friendly cationic surfactant containing amide group:
Batch adsorption experiments and Multiwfn wave function analysis.Journal of Colloid and Interface Science 590 (2021) 601–613
[64] Wenyan Shi*, Mingzhu Xia b,*, Fengyun Wang b,*, Lin Dong b, Sidi Zhu b Efficient absorption properties of surface grafted HEDP-HAP composites for Pb2+ and Cu2+: Experimental study and visualization study of interaction
based on Becke surface analysis and independent gradient model. Journal of Hazardous Materials 401 (2021) 123748
[65] Xin Lu, Negar Javanmardi, Fengyun Wang *, Mingzhu Xia **The ratiometric detection and mechanism of three typical phosphonates by quercetin-based fluorescent probe with low detection limits.Journal of Luminescence 231 (2021) 117778
[66] Hongling Zhang, Feng Zhao, Mingzhu Xia *, Fengyun Wang.Microscopic adsorption mechanism of montmorillonite for common ciprofloxacin emerging contaminant: Molecular dynamics simulation and Multiwfn wave function analysis. Colloids and Surfaces A: Physicochemical and Engineering Aspects 614 (2021) 126186
[67] Wenyan Shi*, Yuting Chu, Mingzhu Xia *, Fengyun Wang*, Chenlu Fu.The adsorption performance and micro-mechanism of MoS2/ montmorillonite composite to atenolol and acebutolol: Adsorption experiments and a novel visual study of interaction.Ecotoxicology and Environmental Safety 213 (2021) 111993
[68] Haihua Xu , Sidi Zhu , Mingzhu Xia *, Fengyun Wang .Rapid and efficient removal of diclofenac sodium from aqueous solution via ternary core-shell CS@PANI@LDH composite: Experimental and adsorption mechanism study. Journal of Hazardous Materials 402 (2021) 123815
[69] Sidi Zhu , Muhammad Asim Khan , Fengyun Wang *, Zahira Bano , Mingzhu Xia *.Exploration of adsorption mechanism of 2-phosphonobutane-1,2,4-tricar-boxylic acid onto kaolinite and montmorillonite via batch experiment and theoretical studies .Journal of Hazardous Materials 403 (2021) 123810
[70] Hongling Zhang & Mingxing Shi & Mingzhu Xia & FengyunWang & Feng Zhao.The Adsorption Mechanism of Montmorillonite for Different Tetracycline Species at Different pH Conditions: the Novel Visual Analysis of Intermolecular
Interactions. Water Air Soil Pollut (2021) 232: 65
[71] Xuexin Zhang1 & Mingzhu Xia1 & Fengyun Wang1 & Wu Lei. CuO/MoS2 composites: a novel photocatalyst for photocatalytic degradation of organic dyes under visible light. https://doi.org/10.1007/s11581-020-03749-5 Ionics (2020) 26:6359–6369
[72] Hongling Zhang, Mingxing Shi, Jianzhe Ma , Mingzhu Xia ?, Fengyun Wang?, Chuan Liao. The interaction and mechanism between threonine-montmorillonite composite and Pb2+ or Cu2+: Experimental study and theory calculation .Journal of Molecular Liquids 326 (2021) 115243.
[73] Hongling Zhang a,⇑, Haihua Xu b, Mingzhu Xia b,⇑, Fengyun Wang b,⇑, Xia Wan bThe adsorption and mechanism of benzothiazole and 2-ydroxybenzothiazole onto a novel ampholytic surfactant modified montmorillonite: Experimental and theoretical study. Advanced Powder Technology xxx (2021) xxx https://doi.org/10.1016/j.apt.2021.02.022
[74] Xin Lu, Negar Javanmardi, Fengyun Wang *, Mingzhu Xia *The ratiometric detection and mechanism of three typical phosphonates by quercetin-based fluorescent probe with low detection limits. Journal of Luminescence 231 (2021) 117778
[75] Hongling Zhang, Mingzhu Xia*, Fengyun Wang*, Pingping Li, Mingxing Shi.Adsorption properties and mechanism of montmorillonite modified by Two Gemini surfactants with different chain lengths for three benzotriazole emerging contaminants:experimental and theoretical study.Applied clay science, 2021, 32(4): 1219-1232.
[76] Shi, W. , Chu, Y. , Xia, M. , Wang, F. , & Fu, C. . (2021). The adsorption performance and micro-mechanism of mos2/montmorillonite composite to atenolol and acebutolol: adsorption experiments and a novel visual study of interaction. Ecotoxicology and Environmental Safety, 213, 111993.
[77] Zhang, H. , Zhao, F. , Xia, M. , & Wang, F. . (2021). Microscopic adsorption mechanism of montmorillonite for common ciprofloxacin emerging contaminant: molecular dynamics simulation and multiwfn wave function analysis. Colloids and Surfaces A Physicochemical and Engineering Aspects, 614, 126186.
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[91] Ma J, Xia M, Belver C, et al. A facile synthesis of ibandronate modified hydroxyapatite renewable nanomaterials for simultaneous removal of Cu2+/Pb2+ and chlortetracycline: Experimental design and adsorption mechanism study[J]. Journal of Cleaner Production, 2022: 132173.
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[94] Zhao Z, Zhang X, Ruan D, et al. Efficient removal of heavy metal ions by diethylenetriaminepenta (methylene phosphonic) acid-doped hydroxyapatite[J]. Science of The Total Environment, 2022, 849: 157557.
[95] Liu C, Mao S, Shi M, et al. Enhanced photocatalytic degradation performance of BiVO4/BiOBr through combining Fermi level alteration and oxygen defect engineering[J]. Chemical Engineering Journal, 2022, 449: 137757.
[96] Xu H, Zhu S, Lu K, et al. Preparation of hierarchically floral ZIF-8 derived carbon@ polyaniline@Ni/Al layered double hydroxides composite with outstanding removal phenomenon for saccharin[J]. Chemical Engineering Journal, 2022, 450: 138127.
[97] Mao S, Zhao P, Wu Y, et al. Promoting charge migration of Co(OH)2/g-C3N4 by hydroxylation for improved PMS activation: Catalyst design, DFT calculation and mechanism analysis[J]. Chemical Engineering Journal, 2023, 451: 138503.
[98] Yu Tao, Baogang Yang, Fengyan Wang, Yanghao Yan, Xianyong Hong, Haihua Xu, Mingzhu Xia, Fengyun Wang. Green synthesis of MOF-808 with modulation of particle sizes and defects for efficient phosphate sequestration, Separation and Purification Technology 300 (2022) 121825
[99] Mingxing Shi, Guangwei Ji, Xiangjing Cui, Chun Liu, Xianyong Hong, Zhoutian Ding, Hua Qiang, Fengyun Wang, Mingzhu Xia. Simple control of carbon mass loading in capacitive deionization for efficient deionized water production, Separation and Purification Technology 301 (2022) 121962
[100] Wu, Y., Mao, S., Liu, C., Pei, F., Wang, F., & Hao, Q., et al. (2021). Enhanced Degradation of Chloramphenicol through Peroxymonosulfate and Visible Light over Z-scheme Photocatalysts: Synergetic Performance and Mechanism Insights. Journal of Colloid and Interface Science 608 (2022) 322–333.
[101] Hua Qiang , Fengyun Wang *, Mingzhu Xia *, Wu Lei , Xia Wan.The removal of benzothiazole by combined
inorgano-organo-montmorillonite modified with hydroxyl iron pillar and cationic panthenol intercalation: Experimental study and Multiwfn wavefunction analysis.Colloids and Surfaces A: Physicochemical and Engineering Aspects 626 (2021) 127025
[102] Peisen Huang, Kai Yan, Xianyong Hong, Mingzhu Xia ⇑, Fengyun Wang.Construction of the composites of nitrogen and sulfur-doped porous carbon and layered double hydroxides and the synergistic removal of heavy metal pollutants.Advanced Powder Technology 33 (2022) 103824
[103] Mingxing Shi a, Hua Qiang a, Chunyu Chen b, Zahira Bano a, Fengyun Wang a,*, Mingzhu Xia a,*,Wu Lei.Construction and evaluation of a novel three-electrode capacitive deionization system with high desalination performance.Separation and Purification Technology 273 (2021) 118976
[104] Chao Ding , Mingzhu Xia * , Fengyun Wang * , Wu Lei , Yue Ni The sensitive detection and mechanism of Fe-3,5-dimethyl pyrazole fluorescent sensor to diethylenetriamine pentamethylene phosphonic acid: Experimental study and quantum chemical calculation. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,281(2022)121623
[105] Ciyang Zhang a, Xingen Xie a,b, Shasha Feng a, Wu Lei a,*, Mingzhu Xia a,*, Fengyun Wang a,*,Hualai Wang.Sensitive fluorescent detection and micromechanism of Mn-doped CuS probe for oxytetracycline hydrochloride.Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,284(2023)121768
[106] Kai Yan a,b, Peisen Huang a, Mingzhu Xia a,*, Xingen Xie b,*, Lin Sun b, Wu Lei a, Fengyun Wang a.An efficient Two-Chamber Electrodeposition-Electrodialysis combination craft for nickel recovery and phosphorus removal from spent electroless
nickel plating bath.Separation and Purification Technology 295 (2022) 121283
[107] Yanru Zhang , Mingzhu Xia *, Fengyun Wang *, Jianzhe Ma.Experimental and theoretical study on the adsorption mechanism of Amino trimethylphosphate (ATMP) functionalized hydroxyapatite on Pb (II) and Cd (II).Colloids and Surfaces A: Physicochemical and Engineering Aspects 626 (2021) 127029
[108] Xianyong Hong a, Mingzhu Xia a,⇑, Mingxing Shi a, Chun Liu a, Yanghao Yan a, Yu Tao a, Yongqiang Zhang b,
Yulei Zhang b, Ping Du a, Fengyun Wanga,⇑.Investigation of the adsorption performance and mechanism of
2-mercaptoethane sulfonic acid intercalated modified layered double hydroxide on heavy metal ions.Journal of Colloid and Interface Science 629 (2023) 948–959
【109】Yanghao Yan a, Yeming Zhao b, Chunxiang Gong b, Yu Tao a, Keren Lu a, Xianyong Hong a,Mingzhu Xia a,*, Fengyun Wang a,*.In-situ growth of 2D magnesium hydroxide on zirconium-based metal organic frameworks for phosphate removal: An experimental and theoretical exploration of adsorption behavior.Separation and Purification Technology 304 (2023) 122289
[110] Hua Qiang , Mingxing Shi , Fengyun Wang *, Mingzhu Xia.Green synthesis of high N-doped hierarchical porous carbon nanogranules with ultra-high specific surface area and porosity for capacitive deionization.Separation and Purification Technology 308 (2023) 122918
[111]Keren Lu, Chenglong Chen, Yi Wu, Cai Liu, Juanjuan Song, Haiyan Jing, Peng Zhao, BVersatile 1, 3-dimethyl-2-imidazolidinone electrolyte additive: Enables extremely long life zinc metal batteries with different substratesoyuan.Chemical Engineering Journal 457 (2023) 141287 .
[112] Jianzhe Ma a, Mingzhu Xia a,**, Carolina Belver b, Yanru Zhang a, Fengyun Wang a,*.A facile synthesis of ibandronate modified hydroxyapatite renewable nanomaterials for simultaneous removal of Cu2+/Pb2+ and chlortetracycline: Experimental design and adsorption mechanism study.Journal of Cleaner Production 361 (2022) 132173
[113] Keren Lu a, Zhiren Zhao a, Jin Cui b, Cuiyun Bai b, Hongling Zhang c,*, Xuetao Zhao b,Fengyun Wang a,*, Mingzhu Xia a,*, Yanru Zhang.The immobilization of Sr(ll) and Co(ll) via magnetic easy-separation organophosphonate-hydroxyapatite hybrid nanoparticles.Separation and Purification Technology 315 (2023) 123750
[114] M Shi, X Hong, C Liu, H Qiang, F Wang, M Xia. Green double organic salt activation strategy for one-step synthesis of N-doped 3D hierarchical porous carbon for capacitive deionization[J]. Chemical Engineering Journal. 2023, 453:139764
[115] M Shi, K Lu, X Hong, H Qiang, C Liu, Z Ding,F Wang, M Xia. High-yield green synthesis of N-doped hierarchical porous carbon by nitrate-mediated organic salt activation strategy for capacitive deionization: universality and commerciality[J]. Chemical Engineering Journal. 2023, 471:144465
[116] M Shi1, K Lu1, H Jia, X Hong, H Qiang, C Liu, Z Ding, F Wang, M Xia. 3D-Printed river-type thick carbon electrodes for docking possible practical application-level capacitive deionization[J]. Science of the Total Environment. 2023, 904:167339
[117] M Shi1, X Liu1, H Jia, F Wang, M Xia. Activation-self-activation craft for one-step synthesis of GO-inbuilt mesopore-dominated N-doped hierarchical porous carbon in capacitive deionization capture of Ni(II)[J]. Separation and Purification Technology. 2024, 330: 125354
[118] Hong X, Shi M, Li L, Ding Z, Zhao Z, Du P, Xia M, Wang F. α-Fe2O3 nanorods on CoFe-LDH@MX via interfacial interactions for Congo red removal: Experimental and mechanistic studies [J]. Journal of Environmental Chemical Engineering, 2024, 12: 113059
[119] Hong X, Shi M, Ding Z, Ding C, Du P, Xia M, Wang F. Unveiling glutamic acid-functionalized LDHs: understanding the Cr(VI) removal mechanism from microscopic and macroscopic view point [J]. Physical Chemistry Chemical Physics, 2023, 25(35): 23519-23529.
[120] Hong X, Ding C, Shi M, Ding Z, Du P, Xia M, Wang F. Easy separation dual-function Cu2O@LDH@Fe3O4 adsorbent for the removal of Cr(VI) under dark conditions: Experimental and mechanistic study [J]. Separation and Purification Technology, 2024, 332: 125734.
[121] Zhiren Zhao , Zhongtian Dong , Fenghe Wang , Fengyun Wang , Mingzhu Xia.Innovative strategy of turning waste into treasure: High-efficiency adsorption of heavy metals pollutants by modified amorphous calcium phosphate prepared with phosphogypsum waste.Journal of Environmental Chemical Engineering 12 (2024) 112994
[122] Chun Liu a, Zhoutian Ding a, Mingxing Shi a, Dongting Wang b, Qun Chen c,*, Mingzhu Xia a,*,Fengyun Wang.Dependence of superoxide radical generation on peroxymonosulfate under visible light: Enrofloxacin degradation and mechanism insight.Chemical Engineering Journal 485 (2024) 149721
[123] Huijuan Jia , Haihua Xu , Mingxing Shi , Keren Lu , Yu Tao , Mingzhu Xia *, Fengyun Wang.Construction of ACNF/Polypyrrole/MIL-100-Fe composites with exceptional removal performance for ceftriaxone and indomethacin
inspired by “Ecological Infiltration System”Journal of Colloid and Interface Science 650 (2023) 1152–1163
[124] Huijuan Jia , Haihua Xu , Mingxing Shi , Yanghao Yan , Keren Lu , Mingzhu Xia *, Fengyun Wang.Manufacture of mirco-meso-macroporous ACNF/PANI/MIL-101(Cr)-NH2 composites with exceptional adsorption phenomenon for indomethacin.Separation and Purification Technology 325 (2023) 124652
[125] Zhoutian Ding a,1, Chun Liu a,1, Baogang Yang b, Chao Ding a, Shuai Mao a, Mingxing Shi a, Xianyong Hong a, Fengyun Wang a,*, Mingzhu Xia a,*The efficient degradation of high concentration phenol by Nitrogen-doped perovskite La2CuO4 via catalytic wet air oxidation: Experimental study and DFT calculation.Separation and Purification Technology 322 (2023) 124310
[126] Shuai Mao a,d,1, Guoying Yao b,1, Peng Liu c, Chun Liu a, Yi Wu a, Zhoutian Ding a, Chao Ding a, Mingzhu Xia a,*, Fengyun Wang a.Construction of an enhanced built-in electric field in S-doped g-C3N4/NiCo2O4 for boosting peroxymonosulfate activation.Chemical Engineering Journal 470 (2023) 144250
[127] Yanghao Yan a, Baogang Yang b, Guangwei Ji b, Keren Lu a, Zhiren Zhao a, Hongling Zhang c,*,
Mingzhu Xia a,*, Fengyun Wang.Tunable zirconium-based metal organic frameworks synthesis for dibutyl phthalate efficient removal: An investigation of adsorption mechanism on macro and micro scale.Journal of Colloid and Interface Science 650 (2023) 222–235
[128] Muhammad Akram a, Seerat Ul Ain Bhutto b, Sikandar Aftab c, Fengyun Wang a, Xing Xu d, Mingzhu Xia a,*,1.Ruthenium based with carbon supported catalysts for the catalytic transfer hydrogenation of furfural: A review.Nano Energy 117 (2023) 108808
[129] Zhihui Wang, Peisen Huang, Yanghao Yan, Yu Tao, Wu Lei *, Mingzhu Xia *, Fengyun Wang *Effective removal of Pb(II) and Congo red by polyrhodanine-modified sepiolite.Journal of Water Process Engineering 54 (2023) 104008
[130] Linrui Li a, Baogang Yang b, Guangwei Ji b, Zhiren Zhao a, Hongling Zhang c,*, Fengyun Wang a,*,
Mingzhu Xia a,*, Peisen Huang a.Mg/Al layered double hydroxides intercalated with ethylenediamine-tetramethylene phosphonic acid for efficient removal of Pb2+ and Cd2+ ions and the intercalation mechanism study.Colloids and Surfaces A: Physicochemical and Engineering Aspects 675 (2023) 132087
[131] Zhongtian Dong, Fenghe Wang *, Mingzhu Xia *, Fengyun Wang *, Shuaiqi Ning.Enhancing biodegradability of refractory insensitive munition preparation wastewater via advanced oxidation treatment: Experimental study and process parameters optimization.Journal of Water Process Engineering 55 (2023) 104214
[132] Zhontian Dong, Zhiren Zhao, Fenghe Wang, Fengyun Wang* and Mingzhu Xia *Integrating multi-method approaches for the
green separation and retrieval of nickel and phosphorus from spent electroless nickel plating solutions†Green Chem., 2023, 25,
10576
[133] Zhongtian Dong , Zhiren Zhao , Fenghe Wang *, Fengyun Wang *, Mingzhu Xia *Efficient treatment of recalcitrant biologically treated coking wastewater using Cu-doped LaFeO3/peroxymonosulfate activator: Performance evaluation and response surface methodology modeling.Colloids and Surfaces A: Physicochemical and Engineering Aspects 679 (2023) 132602
[134] Zhongtian Dong a, Zhiren Zhao a, Hongling Zhang b, Fengyun Wang a, Fenghe Wang a,*, Mingzhu Xia a,*, Huijuan Jia aHierarchical porous ACNF/MIL-68(In)–NH2 composites for rapid and efficient removal of losartan from water: Unveiling adsorption mechanisms and superior performance.Chemical Engineering Journal 498 (2024) 155479
[135] Yubo Pan a, Linrui Li a, Baogang Yang b, Guangwei Ji b, Zhiren Zhao a, Hongling Zhang c,*,Fengyun Wang a,*, Mingzhu Xia a,*, Yu Tao aAdaptive structural modification of Zr-based MOF-808 via solvent and ligand engineering for enhanced fluoride ion adsorption efficiency.Separation and Purification Technology 348 (2024) 127731
[136] Yubo Pan a, Linrui Li a, Keren Lu a, Xianyong Hong a, Jian Gao b, Mingzhu Xia a,*,Fengyun Wang.Synergistic adsorption of real phosphorus-containing domestic wastewater by in-situ growth of MgFe-layered double hydroxides co-doped with
dual-functional lignosulfonate and La(OH)3 on wood-derived cellulose aerogel.Chemical Engineering Journal 493 (2024) 152725
[137] H. Qiang, M.X. Shi, F.Y. Wang, M.Z. Xia, Green synthesis of high N-doped hierarchical porous carbon nanogranules with ultra-high specific surface area and porosity for capacitive deionization, SEPARATION AND PURIFICATION TECHNOLOGY 308 (2023).
[138] Hua Qiang 1 , Mingxing Shi 1 , Fengyun Wang * , Mingzhu Xia..Biomass-based N/P co-doped hierarchical porous carbon fabricated by a facile dual physico-chemical activation strategy for efficient capacitive deionization.Separation and Purification Technology 333 (2024) 125915