吴张雄
教授、博士生导师
联系方式:
邮箱:duo.wu@suda.edu.cn
地址:苏州工业园区仁爱路199号911号楼506室
邮编:215123
教育及工作经历:
吴张雄教授,1984年出生于湖南涟源。2006年7月毕业于复旦大学化学系,获理学学士学位。2006年直升复旦大学研究生(硕博连读),师从赵东元教授(中国科学院院士),并于2011年6月获得无机化学专业理学博士学位。期间,于2008年1月至2009年7月,在留学基金委与资助下,赴澳大利亚莫纳什(Monash)大学化工系学习。2010年3月,通过复旦大学与莫纳什大学双博士学位联合培养协议,获莫纳什大学全额奖学金资助,师从赵东元教授与Paul Webley教授,并于2012年6月获得莫纳什大学化工系博士学位。此后,在莫纳什大学化工系先后担任研究助理与博士后研究员,合作导师包括赵东元教授、陈晓东教授、Cordelia Selomulya教授与王焕庭教授。
2014年9月受聘于红宝石官方网站,任材料与化学化工学部特聘教授、博士生导师。学生期间曾获得“上海市优秀博士毕业论文”、“上海市优秀毕业生”、复旦大学“学术之星”、复旦大学“望道学者”、5th VACPS“最佳口头报告”、 7th VACPS“优秀组织奖”、OzCarbon 2012“最佳墙报”奖、Monash大学“Post Publication Award”等荣誉与奖励。独立开展学术研究后,于2015入选苏州市“金鸡湖 双百人才计划”高层次领军人才、苏州市“高等院校、科研院所紧缺高层次人才”、江苏省“双创博士” 等人才项目。2015年获亚洲颗粒技术大会“青年研究者”奖。2017年作为核心成员入选江苏省“双创团队”。
课题组研究方向:
吴张雄教授课题组的主要研究方向为功能介孔材料的可控制备、界面调控及其在清洁能源生产与环境整治方面的应用基础研究。研究的中心思路与核心目标是(如下图1): 以研发高效催化与吸附材料为目标,结合多孔材料合成及界面化学理念与化工技术,调控多孔材料的纳微多尺度性质。在宏观层面,开发多孔材料连续、规模化制备的方法与工艺;在微米尺度,从亚微米到毫米级别连续调控材料的粒径与均一性;在纳米与分子尺度,控制颗粒内部孔道结构、孔径大小与梯度以及孔道界面的功能。课题组在基础研究以外,积极推进校企合作,开发新材料、新产品与新技术,特别是在水处理方面,着力于研发性能优良的环保催化材料。
(1)多孔纳米材料的合成
课题组致力于开发制备多孔纳米材料,特别是介孔材料的新方法与新工艺,致力于结合界面化学与绿色化工,实现多孔材料的连续与宏量制备。课题组开发了微流体喷雾干燥辅助组装、无溶剂纳米铸造等方法,制备了一系列具有不同化学组成的功能性纳米多孔材料,特别是多孔碳与多孔金属氧化物。
(2)多孔纳米催化剂的制备
课题组一直致力于控制制备多孔材料搭载的纳米催化剂,实现载体性质与纳米活性位点的协同调控与优化。课题组报道了原位后水解法、纳米限域生长、喷雾干燥快速成核、无溶剂配位组装等方法,合成了多种由多孔载体和活性组分组成的非均相催化剂,其活性组分包括活性基团、单原子金属位点,超小纳米团簇及尺寸可控的纳米颗粒。
(3)多孔材料在催化与吸附领域的应用基础研究
课题组以上述研究为基础,开展这些材料在催化与分离领域的应用基础研究。在吸附方面,课题组聚焦于优良的CO2及重金属的吸附剂。在催化方面,课题组在电催化,选择性加氢,臭氧催化氧化,生物柴油生产,太阳能驱动的海水淡化与净化等方面取得了较好的进展。在臭氧催化氧化方面,课题组与苏州科环环保公司合作,开发高效的臭氧催化氧化技术,用于降解工业有机废水。
科研成果:
截止2018年6月,累计在国际权威期刊发表学术论文69篇,国际PCT专利一项、申请、受理或授权国内发明专利7项。第一作者或通讯作者论文有相当一部分发表在国际著名化学、化工与材料期刊上,包括J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、Adv. Mater. Adv. Funct. Mater.、Small, J. Mater. Chem.、Chem. Eng. Sci.等。论文SCI总他引4700多次,有9篇论文为领域内的高被引用论文,H-index为32(来自2018年6月的Web of Science 数据)
常年招收科研助理和博士后;
欢迎有志于科学研究的学子报考本课题组硕士或博士研究生!
近几年论文:
2018年
67. Zhu,J.; Yao, Y.; Chen, Z.; Zhang, A.; Zhou, M.; Guo, J.; Wu, W. D.; Chen, X. D.;Li, Y.; Wu, Z., Controllable Synthesis of Ordered Mesoporous Mo2C@GraphiticCarbon Core-Shell Nanowire Arrays for Efficient Electrocatalytic HydrogenEvolution. ACS Applied Materials &Interfaces 2018,10 (22), 18761-18770.
https://pubs.acs.org/doi/10.1021/acsami.8b04528
66.Zhang, S.; Lei, H.; Gao, X.; Xiong, X.; Wu, W. D.; Wu, Z.; Chen, X. D.,Fabrication of uniform enzyme-immobilized carbohydrate microparticles with highenzymatic activity and stability via spray drying and spray freeze drying. Powder Technology 2018,330, 40-49.
https://www.sciencedirect.com/science/article/pii/S0032591018301384
65. Yu,Z.; Gao, X.; Yao, Y.; Zhang, X.; Bian, G.-Q.; Wu, W. D.; Chen, X. D.; Li, W.;Selomulya, C.; Wu, Z.; Zhao, D., Scalable synthesis of wrinkled mesoporoustitania microspheres with uniform large micron sizes for efficient removal ofCr(VI). Journal of Materials Chemistry A 2018,6 (9), 3954-3966.
http://pubs.rsc.org/en/content/articlelanding/2018/ta/c8ta00488a
64. Wu,D.; Sun, S.-P.; He, M.; Wu, Z.; Xiao, J.; Chen, X. D.; Wu, W. D., As(V) andSb(V) co-adsorption onto ferrihydrite: synergistic effect of Sb(V) on As(V)under competitive conditions. EnvironmentalScience and Pollution Research 2018,25 (15), 14585-14594.
https://link.springer.com/article/10.1007%2Fs11356-018-1488-2
63. Jia,D.; Sun, S.-P.; Wu, Z.; Wang, N.; Jin, Y.; Dong, W.; Chen, X. D.; Ke, Q., TCEdegradation in groundwater by chelators-assisted Fenton-like reaction ofmagnetite: Sand columns demonstration. Journalof Hazardous Materials 2018,346, 124-132.
https://linkinghub.elsevier.com/retrieve/pii/S0304389417309214
2017年
62.Zhang, Z.; Wei, X.; Yao, Y.; Chen, Z.; Zhang, A.; Li, W.; Wu, W. D.; Wu, Z.;Chen, X. D.; Zhao, D., Conformal Coating of Co/N-Doped Carbon Layers intoMesoporous Silica for Highly Efficient Catalytic Dehydrogenation-HydrogenationTandem Reactions. Small 2017,13 (42), 1702243.
https://onlinelibrary.wiley.com/doi/abs/10.1002/**ll.201702243
61.Zhang, A.; Li, X.-Y.; Zhang, S.; Yu, Z.; Gao, X.; Wei, X.; Wu, Z.; Wu, W. D.;Chen, X. D., Spray-drying-assisted reassembly of uniform and large micro-sizedMIL-101 microparticles with controllable morphologies for benzene adsorption. Journal of Colloid and Interface Science 2017,506, 1-9.
https://www.sciencedirect.com/science/article/pii/S0021979717307890
60. Yao,Y.; Chen, Z.; Zhang, A.; Zhu, J.; Wei, X.; Guo, J.; Wu, W. D.; Chen, D.; Wu,Z., Surface-coating synthesis of nitrogen-doped inverse opal carbon materialswith ultrathin micro/mesoporous graphene-like walls for oxygen reduction andsupercapacitors. Journal of MaterialsChemistry A 2017,5 (48), 25237-25248.
http://pubs.rsc.org/en/Content/ArticleLanding/2017/TA/C7TA08354H
59. Lin,R.; Woo, M. W.; Wu, Z.; Liu, W.; Ma, J.; Chen, X. D.; Selomulya, C., Spraydrying of mixed amino acids: The effect of crystallization inhibition andhumidity treatment on the particle formation. Chemical Engineering Science 2017,167, 161-171.
https://linkinghub.elsevier.com/retrieve/pii/S0009250917302592
58. Fu,N.; Wu, W. D.; Wu, Z.; Moo, F. T.; Woo, M. W.; Selomulya, C.; Chen, X. D.,Formation Process of Core-Shell Microparticles by Solute Migration DuringDrying of Homogenous Composite Droplets. AicheJournal 2017,63 (8), 3297-3310.
https://onlinelibrary.wiley.com/doi/abs/10.1002/aic.15713
57.Chen, Z.; Gao, X.; Wei, X.; Wang, X.; Li, Y.; wu, T.; Guo, J.; Gu, Q.; Wu, W.D.; Chen, X. D.; Wu, Z.; Zhao, D., Directly anchoring Fe3C nanoclusters andFeNx sites in ordered mesoporous nitrogen-doped graphitic carbons to boostelectrocatalytic oxygen reduction. Carbon 2017,121, 143-153.
https://linkinghub.elsevier.com/retrieve/pii/S0008622317305365
2016年
56.Parsons-Moss, T.; Jones, S.; Wang, J.; Wu, Z.; Uribe, E.; Zhao, D.; Nitsche,H., Reduction of plutonium in acidic solutions by mesoporous carbons. Journal of Radio****ytical and NuclearChemistry 2016,307 (3), 2593-2601.
https://link.springer.com/article/10.1007%2Fs10967-015-4647-7
55. Lei,H.; Gao, X.; Wu, W. D.; Wu, Z.; Chen, X. D., Aerosol-Assisted Fast FormulatingUniform Pharmaceutical Polymer Microparticles with Variable Properties towardpH-Sensitive Controlled Drug Release. Polymers 2016,8 (5).
54. Gao,X.; Chen, Z.; Yao, Y.; Zhou, M.; Liu, Y.; Wang, J.; Wu, W. D.; Chen, X. D.; Wu,Z.; Zhao, D., Direct Heating Amino Acids with Silica: A Universal Solvent-FreeAssembly Approach to Highly Nitrogen-Doped Mesoporous Carbon Materials. Advanced Functional Materials 2016,26 (36), 6649-6661.
https://onlinelibrary.wiley.com/doi/full/10.1002/adfm.201601640
2015年
53. Wei,J.; Hu, Y.; Wu, Z.; Liang, Y.; Leong, S.; Kong, B.; Zhang, X.; Zhao, D.; Simon,G. P.; Wang, H., A graphene-directed assembly route to hierarchically porousCo-N-x/C catalysts for high-performance oxygen reduction. Journal of Materials Chemistry A 2015,3 (32),16867-16873.
http://pubs.rsc.org/en/content/articlepdf/2015/ta/c5ta04330a
52.Waldron, K.; Wu, Z.; Zhao, D.; Chen, X. D.; Selomulya, C., On the improvementof pore accessibility through post-synthesis hydrothermal treatments of spraydried SBA-15 microspheres. ChemicalEngineering Science 2015,127, 276-284.
https://www.sciencedirect.com/science/article/pii/S0009250915000445?via%3Dihub
51.Teng, W.; Wu, Z.; Fan, J.; Zhang, W.-x.; Zhao, D., Amino-functionalized orderedmesoporous carbon for the separation of toxic microcystin-LR. Journal of Materials Chemistry A 2015,3 (37), 19168-19176.
http://pubs.rsc.org/en/Content/ArticleLanding/2015/TA/C5TA05320J#!divAbstract
50. Lv,Y.; Fang, Y.; Wu, Z.; Qian, X.; Song, Y.; Che, R.; Asiri, A. M.; Xia, Y.; Tu,B.; Zhao, D., In-Situ Confined Growth of Monodisperse Pt Nanoparticle@GrapheneNanobox Composites as Electrocatalytic Nanoreactors. Small 2015,11 (8), 1003-1010. https://onlinelibrary.wiley.com/doi/abs/10.1002/**ll.201402289
49. Lu,J.; Shen, H.-H.; Wu, Z.; Wang, B.; Zhao, D.; He, L., Self-assembly ofbi-functional peptides on large-pore mesoporous silica nanoparticles for miRNAbinding and delivery. Journal ofMaterials Chemistry B 2015,3 (39), 7653-7657.
http://pubs.rsc.org/en/Content/ArticleLanding/2015/TB/C5TB01133G#!divAbstract
48. Liu,Y.; Che, R.; Chen, G.; Fan, J.; Sun, Z.; Wu, Z.; Wang, M.; Li, B.; Wei, J.;Wei, Y.; Wang, G.; Guan, G.; Elzatahry, A. A.; Bagabas, A. A.; Al-Enizi, A. M.;Deng, Y.; Peng, H.; Zhao, D., Radially oriented mesoporous TiO2 microsphereswith single-crystal-like anatase walls for high-efficiency optoelectronicdevices. Science Advances 2015,1 (4).
http://advances.sciencemag.org/content/1/4/e1500166
47.Guan, L.; Tian, J.; Cao, R.; Li, M.; Wu, Z.; Nilghaz, A.; Shen, W., SurfaceModification of Cellulose Paper for Quantum Dot-based Sensing Applications. Bioresources 2015,10 (1), 1587-1598.
46.Fang, Y.; Lv, Y.; Gong, F.; Wu, Z.; Li, X.; Zhu, H.; Zhou, L.; Yao, C.; Zhang,F.; Zheng, G.; Zhao, D., Interface Tension-Induced Synthesis of MonodispersedMesoporous Carbon Hemispheres. Journal ofthe American Chemical Society 2015,137 (8), 2808-2811. https://pubs.acs.org/doi/10.1021/jacs.5b01522
2014年
45.Zhao, C.; Yang, Y.; Wu, Z.; Field, M.; Fang, X.-y.; Burke, N.; Chiang, K.,Synthesis and facile size control of well-dispersed cobalt nanoparticlessupported on ordered mesoporous carbon. Journalof Materials Chemistry A 2014,2 (46), 19903-19913. DOI: 10.1039/C4TA04561K
44.Waldron, K.; Wu, Z.; Wu, W. D.; Liu, W.; Zhao, D.; Chen, X. D.; Selomulya, C.,Formation of uniform large SBA-15 microspheres via spray drying. Journal of Materials Chemistry A 2014,2 (45), 19500-19508.
43.Waldron, K.; Wu, W. D.; Wu, Z.; Liu, W.; Selomulya, C.; Zhao, D.; Chen, X. D.,Formation of monodisperse mesoporous silica microparticles via spray-drying. Journal of Colloid and Interface Science 2014,418, 225-233.
https://doi.org/10.1016/j.jcis.2013.12.027
42. Sun,Z.; Yue, Q.; Liu, Y.; Wei, J.; Li, B.; Kaliaguine, S.; Deng, Y.; Wu, Z.; Zhao,D., Rational synthesis of superparamagnetic core-shell structured mesoporou**icrospheres with large pore sizes. Journalof Materials Chemistry A 2014,2 (43), 18322-18328. DOI: 10.1039/C4TA04414B
41. Lv,Y.; Wu, Z.; Fang, Y.; Qian, X.; Asiri, A. M.; Tu, B.; Zhao, D., Hierarchicalmesoporous/microporous carbon with graphitized frameworks for high-performancelithium-ion batteries. Apl Materials 2014,2 (11).
https://doi.org/10.1063/1.4897201
40. Li,W.; Wu, Z.; Wang, J.; Elzatahry, A. A.; Zhao, D., A Perspective on MesoporousTiO2 Materials. Chemistry of Materials 2014,26 (1), 287-298. DOI: 10.1021/cm4014859
39.Kong, B.; Tang, J.; Wu, Z.; Wei, J.; Wu, H.; Wang, Y.; Zheng, G.; Zhao, D.,Ultralight Mesoporous Magnetic Frameworks by Interfacial Assembly of PrussianBlue Nanocubes. Angewandte Chemie-InternationalEdition 2014,53 (11), 2888-2892. https://doi.org/10.1002/anie.201308625
38.Kong, B.; Tang, J.; Wu, Z.; Selomulya, C.; Wang, H.; Wei, J.; Wang, Y.; Zheng,G.; Zhao, D., Bio-inspired porous antenna-like nanocube/nanowireheterostructure as ultra-sensitive cellular interfaces. Npg Asia Materials 2014,6. https://doi.org/10.1038/am.2014.56
2013年
37.Zhao, Z.; Tian, J.; Wu, Z.; Liu, J.; Zhao, D.; Shen, W.; He, L., Enhancingenzymatic stability of bioactive papers by implanting enzyme-immobilizedmesoporous silica nanorods into paper. Journalof Materials Chemistry B 2013,1 (37), 4719-4722. DOI:10.1039/C3TB20953A
36. Wu,Z.; Wu, W. D.; Liu, W.; Selomulya, C.; Chen, X. D.; Zhao, D., A General"Surface-Locking" Approach toward Fast Assembly and Processing ofLarge-Sized, Ordered, Mesoporous Carbon Microspheres. Angewandte Chemie-International Edition 2013,52 (51),13764-13768.
https://doi.org/10.1002/ange.201307608
35.Teng, W.; Wu, Z.; Feng, D.; Fan, J.; Wang, J.; Wei, H.; Song, M.; Zhao, D.,Rapid and Efficient Removal of Microcystins by Ordered Mesoporous Silica. Environmental Science & Technology 2013,47 (15), 8633-8641. DOI: 10.1021/es400659b
34.Teng, W.; Wu, Z.; Fan, J.; Chen, H.; Feng, D.; Lv, Y.; Wang, J.; Asiri, A. M.;Zhao, D., Ordered mesoporous carbons and their corresponding column for highlyefficient removal of microcystin-LR. Energy& Environmental Science 2013,6 (9), 2765-2776. DOI: 10.1039/C3EE41775A
33. Lv,Y.; Wu, Z.; Qian, X.; Fang, Y.; Feng, D.; Xia, Y.; Tu, B.; Zhao, D.,Site-Specific Carbon Deposition for Hierarchically OrderedCore/Shell-Structured Graphitic Carbon with Remarkable ElectrochemicalPerformance. Chemsuschem 2013,6 (10), 1938-1944. https://doi.org/10.1002/cssc.201300458
32. Li,B.; Sun, B.; Qian, X.; Li, W.; Wu, Z.; Sun, Z.; Qiao, M.; Duke, M.; Zhao, D.,In-Situ Crystallization Route to Nanorod-Aggregated Functional ZSM-5Microspheres. Journal of the AmericanChemical Society 2013,135 (4), 1181-1184. DOI: 10.1021/ja309194z
2012年
31. Wu,Z.; Webley, P. A.; Zhao, D., Post-enrichment of nitrogen in soft-templatedordered mesoporous carbon materials for highly efficient phenol removal and CO2capture. Journal of Materials Chemistry 2012,22 (22), 11379-11389. DOI: 10.1039/C2JM16183D.
30. Wu,Z.; Lv, Y.; Xia, Y.; Webley, P. A.; Zhao, D., Ordered MesoporousPlatinum@Graphitic Carbon Embedded Nanophase as a Highly Active, Stable, andMethanol-Tolerant Oxygen Reduction Electrocatalyst. Journal of the American Chemical Society 2012,134 (4), 2236-2245. DOI: 10.1021/ja209753w.
29. Wu,Z.; Li, W.; Xia, Y.; Webley, P.; Zhao, D., Ordered mesoporous graphitizedpyrolytic carbon materials: synthesis, graphitization, and electrochemicalproperties. Journal of MaterialsChemistry 2012,22 (18), 8835-8845. DOI: 10.1021/ja209753w.
28. Wu, Z.; Li, W.; Webley, P. A.; Zhao,D., General and Controllable Synthesis of Novel Mesoporous Magnetic IronOxide@Carbon Encapsulates for Efficient Arsenic Removal. Advanced Materials 2012,24 (4), 485. https://onlinelibrary.wiley.com/doi/10.1002/adma.201103789
27.Wang, J.; Xue, C.; Wu, Z.; Li, W.; Lv, Y.; Asiri, A. M.; Tu, B.; Zhao, D.,Hollow micro-mesoporous carbon polyhedra produced by selective removal ofskeletal scaffolds. Carbon 2012,50 (7), 2546-2555.
https://doi.org/10.1016/j.carbon.2012.02.003
26. Liu,Y.; Wu, Z.; Chen, X.; Shao, Z.; Wang, H.; Zhao, D., A hierarchical adsorptionmaterial by incorporating mesoporous carbon into macroporous chitosanmembranes. Journal of Materials Chemistry 2012,22 (24), 11908-11911. DOI:10.1039/C2JM31581E
25. Li,W.; Yang, J.; Wu, Z.; Wang, J.; Li, B.; Feng, S.; Deng, Y.; Zhang, F.; Zhao,D., A Versatile Kinetics-Controlled Coating Method To Construct Uniform PorousTiO2 Shells for Multifunctional Core-Shell Structures. Journal of the American Chemical Society 2012,134 (29), 11864-11867. DOI: 10.1021/ja3037146.
2011年
24. Wu,Z.; Zhao, D., Ordered mesoporous materials as adsorbents. Chemical Communications 2011,47 (12), 3332-3338. DOI: 10.1039/C0CC04909C.
23. Wu,Z.; Hao, N.; Xiao, G.; Liu, L.; Webley, P.; Zhao, D., One-pot generation ofmesoporous carbon supported nanocrystalline calcium oxides capable of efficientCO2 capture over a wide range of temperatures. Physical Chemistry Chemical Physics 2011,13 (7), 2495-2503. DOI: 10.1039/C0CP01807D.
22. Li, W.; Zhang, F.; Dou, Y.; Wu, Z.;Liu, H.; Qian, X.; Gu, D.; Xia, Y.; Tu, B.; Zhao, D., A Self-Template Strategyfor the Synthesis of Mesoporous Carbon Nanofibers as Advanced SupercapacitorElectrodes. Advanced Energy Materials 2011,1 (3), 382-386.https://onlinelibrary.wiley.com/doi/abs/10.1002/aenm.201000096
21. Li,W.; Deng, Y.; Wu, Z.; Qian, X.; Yang, J.; Wang, Y.; Gu, D.; Zhang, F.; Tu, B.;Zhao, D., Hydrothermal Etching Assisted Crystallization: A Facile Route toFunctional Yolk-Shell Titanate Microspheres with Ultrathin Nanosheets-AssembledDouble Shells. Journal of the AmericanChemical Society 2011,133 (40), 15830-15833. DOI: 10.1021/ja2055287.
20. Li,Q.; Jiang, R.; Dou, Y.; Wu, Z.; Huang, T.; Feng, D.; Yang, J.; Yu, A.; Zhao,D., Synthesis of mesoporous carbon spheres with a hierarchical pore structurefor the electrochemical double-layer capacitor. Carbon 2011,49 (4), 1248-1257. DOI:10.1016/j.carbon.2010.11.043.
19. Hao,N.; Wu, Z.; Webley, P. A.; Zhao, D., Synthesis of ordered mesostructuredpolymer-organosilica composites by the triconstituent co-assembly method. Materials Letters 2011,65 (4), 624-627. DOI:10.1016/j.matlet.2010.11.054.
18.Feng, D.; Lv, Y.; Wu, Z.; Dou, Y.; Han, L.; Sun, Z.; Xia, Y.; Zheng, G.; Zhao,D., Free-Standing Mesoporous Carbon Thin Films with Highly Ordered PoreArchitectures for Nanodevices. Journal ofthe American Chemical Society 2011,133 (38), 15148-15156. DOI: 10.1021/ja2056227.
17. Bao,H.; Yang, J.; Huang, Y.; Xu, Z. P.; Hao, N.; Wu, Z.; Lu, G. Q.; Zhao, D.,Synthesis of well-dispersed layered double hydroxide core@ordered mesoporoussilica shell nanostructure (LDH@mSiO(2)) and its application in drug delivery. Nanoscale 2011,3 (10), 4069-4073. DOI: 10.1039/C1NR10718F.
2010年
16. Wu,Z.; Webley, P. A.; Zhao, D., Comprehensive Study of Pore Evolution,Mesostructural Stability, and Simultaneous Surface Functionalization of OrderedMesoporous Carbon (FDU-15) by Wet Oxidation as a Promising Adsorbent. Langmuir 2010,26 (12), 10277-10286. DOI: 10.1021/la100455w
15. Wu,Z.; Meng, Y.; Zhao, D., Nanocasting fabrication of ordered mesoporousphenol-formaldehyde resins with various structures and their adsorptionperformances for basic organic compounds. Microporousand Mesoporous Materials 2010,128 (1-3), 165-179. https://www.sciencedirect.com/science/article/pii/S1387181109003941
14. Wu,Z.; Li, Q.; Peng, D.; Webley, P. A.; Zhao, D., Ordered Mesoporous Crystallinegamma-Al2O3 with Variable Architecture and Porosity from a Single HardTemplate. Journal of the AmericanChemical Society 2010,132 (34), 12042-12050. DOI: 10.1021/ja104379a
13. Li,Q.; Yang, J.; Feng, D.; Wu, Z.; Wu, Q.; Park, S. S.; Ha, C.-S.; Zhao, D.,Facile synthesis of porous carbon nitride spheres with hierarchicalthree-dimensional mesostructures for CO2 capture. Nano Research 2010,3 (9), 632-642. DOI10.1007/s12274-010-0023-7
12. Li,Q.; Xu, J.; Wu, Z.; Feng, D.; Yang, J.; Wei, J.; Wu, Q.; Tu, B.; Cao, Y.; Zhao,D., Facile synthesis of highly stable and well-dispersed mesoporous ZrO2/carboncomposites with high performance in oxidative dehydrogenation of ethylbenzene. Physical Chemistry Chemical Physics 2010,12 (36), 10996-11003. DOI:10.1039/C004469E
11. Li,Q.; Wu, Z.; Tu, B.; Park, S. S.; Ha, C.-S.; Zhao, D., Highly hydrothermalstability of ordered mesoporous aluminosilicates Al-SBA-15 with high Si/Alratio. Microporous and MesoporousMaterials 2010,135 (1-3), 95-104.
https://www.sciencedirect.com/science/article/pii/S1387181110002088
10. Li,Q.; Wu, Z.; Feng, D.; Tu, B.; Zhao, D., Hydrothermal Stability ofMesostructured Cellular Silica Foams. Journalof Physical Chemistry C 2010,114 (11), 5012-5019. https://pubs.acs.org/doi/10.1021/jp9100784
9. Gu,D.; Bongard, H.; Meng, Y.; Miyasaka, K.; Terasaki, O.; Zhang, F.; Deng, Y.; Wu,Z.; Feng, D.; Fang, Y.; Tu, B.; Schueth, F.; Zhao, D., Growth of Single-CrystalMesoporous Carbons with Im(3)over-barm Symmetry. Chemistry of Materials 2010,22 (16), 4828-4833. DOI: 10.1021/cm101648y
8. Gu, D.; Bongard, H.; Deng, Y.; Feng,D.; Wu, Z.; Fang, Y.; Mao, J.; Tu, B.; Schueth, F.; Zhao, D., An AqueousEmulsion Route to Synthesize Mesoporous Carbon Vesicles and TheirNanocomposites. Advanced Materials 2010,22 (7), 833. https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.200902550
7.Fang, Y.; Gu, D.; Zou, Y.; Wu, Z.; Li, F.; Che, R.; Deng, Y.; Tu, B.; Zhao, D.,A Low-Concentration Hydrothermal Synthesis of Biocompatible Ordered MesoporousCarbon Nanospheres with Tunable and Uniform Size. Angewandte Chemie-International Edition 2010,49 (43), 7987-7991. https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201002849
2009年
6. Xu,Y.; Wu, Z.; Zhang, L.; Lu, H.; Yang, P.; Webley, P. A.; Zhao, D., HighlySpecific Enrichment of Glycopeptides Using Boronic Acid-FunctionalizedMesoporous Silica. Analytical Chemistry 2009,81 (1), 503-508.
https://pubs.acs.org/doi/abs/10.1021/ac801912t
5. Wu,Z.; Yang, Y.; Tu, B.; Webley, P. A.; Zhao, D., Adsorption of xylene isomers onordered hexagonal mesoporous FDU-15 polymer and carbon materials. Adsorption-Journal of the InternationalAdsorption Society 2009,15 (2), 123-132.
https://link.springer.com/article/10.1007%2Fs10450-009-9159-8
4. Wu,Z.; Yang, Y.; Gu, D.; Zhai, Y.; Feng, D.; Li, Q.; Tu, B.; Webley, P. A.; Zhao,D. Y., Synthesis of Ordered Mesoporous Carbon Materials with Semi-GraphitizedWalls via Direct In-situ Silica-Confined Thermal Decomposition of CH4 and TheirHydrogen Storage Properties. Topics inCatalysis 2009,52 (1-2), 12-26.
https://link.springer.com/article/10.1007%2Fs11244-008-9134-8
3. Wu,Z.; Yang, Y.; Gu, D.; Li, Q.; Feng, D.; Chen, Z.; Tu, B.; Webley, P. A.; Zhao,D., Silica-Templated Synthesis of Ordered Mesoporous Tungsten Carbide/GraphiticCarbon Composites with Nanocrystalline Walls and High Surface Areas via aTemperature-Programmed Carburization Route. Small 2009,5 (23), 2738-2749.
https://onlinelibrary.wiley.com/doi/abs/10.1002/**ll.200900523
2008年
2. Gu,D.; Zhang, F.; Shi, Y.; Zhang, F.; Wu, Z.; Deng, Y.; Zhang, L.; Tu, B.; Zhao,D., A "teardown" method to create large mesotunnels on the pore wallsof ordered mesoporous silica. Journal ofColloid and Interface Science 2008,328 (2), 338-343.
https://linkinghub.elsevier.com/retrieve/pii/S0021979708011399
2006年
1.Meng, Y.; Gu, D.; Zhang, F.; Shi, Y.; Cheng, L.; Feng, D.; Wu, Z.; Chen, Z.;Wan, Y.; Stein, A.; Zhao, D., A family of highly ordered mesoporous polymerresin and carbon structures from organic-organic self-assembly. Chemistry of Materials 2006,18 (18), 4447-4464. https://pubs.acs.org/doi/abs/10.1021/cm060921u
