Name:Zhangxiong Wu Title:Professor
College of Chemistry, Chemical Engineering and Materials Science, Soochow University Tell:0512-65882782 Address:Room 506, Building 911, Ren'ai Road, Suzhou Post code:215123 课题组网站 | |
Introduction: Dr. Wu is currently a professor at Soochow University. He obtained his Bachelor Degree in Chemistry (2006) and PhD Degree in Inorganic Chemistry (2011), both from Fudan University. From January 20008, he spent one and a half years to study at the Department of Chemical Engineering of Monash University under the supporting of China Scholarship Council (CSC). In 2010, he was the first to enrol as a PhD candidate under the Dual-Award PhD Program between Fudan University and Monash University. In 2012, he was awarded a PhD Degree in Chemical Engineering from Monash University. Afterwards, he worked as a research assistant and then as a research fellow in the Department of Chemical Engineering at Moansh University. In September 2014, he joined Soochow University as a full professor.
He is one of four key personnel in “Innovative Research Team” awarded by the Jiangsu Provincial Government in 2017. He has obtained some research awards, such as the “Young Investigator Award” from the 2015 Asian Particle Technology Symposium, “Shanghai Excellent Graduates” in 2011, “Shanghai Excellent Doctoral Thesis” in 2012, and so on.
Dr. Wu’s principal research interest is the synthesis nanoporous materials for the purpose of catalysis and environmental remediation. His group has explored and developed several new and general methods, such as microfluidic spray drying assisted assembly and solvent-free nanocasting, to synthesize and process functional nanoporous materials with a range of chemical compositions, especially porous carbons and metal oxides. He has contributed to the basic understanding of the mechanisms of drying-induced interfacial assembly and nano-confined synthesis for the generation of mesoporous materials. Meanwhile, his group has made continuous efforts on developing general methods, such as ammonia post hydrolysis, nano-confined growth, spray drying assisted nucleation, to synthesize heterogeneous catalysts composed of a porous support and an active component in the form of functional groups, single metal sites, ultra-small nanoclusters or size-controllable nanoparticles. The purpose of the above research is the basic and applied research in separation and catalysis. In particular, his group has developed high-performance adsorbents for CO2 separation and heavy metal ions removal, and efficient catalysts for electro-catalysis, selective hydrogenation, catalytic ozonation, biodiesel production, solar-driven water desalination and purification, etc. He has undertaken some R&D research projects collaborating with Koovine Group Environment Technology Co. Ltd, to develop efficient catalysts for ozonation of organic waste waters. Dr. Wu has published > 70 peer-reviewed journal papers, most of which have been appeared in reputed international journals, such as Science Adv., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Adv. Mater., Adv. Funct. Mater., Energy Environ. Sci., Environ. Sci. Technol., Small, Chem. Eng. Sci., and so on. The papers have attracted > 5000 citations. He has co-authored 8 patents, including both applied and authorized ones. Publications: Year2018 69. Zhou, M.; Wei, X.; Zhang, X.; Gao, X.; Wang, X.; Wu, W. D.; Cordelia, S.; Wu, Z., Uniform Mesoporous Carbon Hollow Microspheres Imparted with Surface-Enriched Gold Nanoparticles Enable Fast Flow Adsorption and Catalytic Reduction of Nitrophenols. Journal of Colloid and Interface Science 2018, 537,112-122. https://doi.org/10.1016/j.jcis.2018.11.004 68. Wei, X.; Zhang, Z.; Zhou, M.; Zhang, A.; Wu, W. D.; Wu, Z., Solid-state nanocasting synthesis of orderedmesoporous CoNx–carbon catalysts for highlyefficient hydrogenation of nitro compounds. Nanoscale, 2018, 10, 16839-16847. https://doi.org/10.1039/C8NR04775H 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@Graphitic Carbon Core-Shell Nanowire Arrays for Efficient Electrocatalytic Hydrogen Evolution. 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 high enzymatic 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 mesoporous titania microspheres with uniform large micron sizes for efficient removal of Cr(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) and Sb(V) co-adsorption onto ferrihydrite: synergistic effect of Sb(V) on As(V) under competitive conditions. Environmental Science 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., TCE degradation in groundwater by chelators-assisted Fenton-like reaction of magnetite: Sand columns demonstration. Journal of Hazardous Materials 2018,346, 124-132. https://linkinghub.elsevier.com/retrieve/pii/S0304389417309214 Year2017 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 into Mesoporous Silica for Highly Efficient Catalytic Dehydrogenation-Hydrogenation Tandem Reactions. Small 2017,13 (42), 1702243. https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.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-sized MIL-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 materials with ultrathin micro/mesoporous graphene-like walls for oxygen reduction and supercapacitors. Journal of Materials Chemistry 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., Spray drying of mixed amino acids: The effect of crystallization inhibition and humidity 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 During Drying of Homogenous Composite Droplets. Aiche Journal 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 and FeNx sites in ordered mesoporous nitrogen-doped graphitic carbons to boost electrocatalytic oxygen reduction. Carbon 2017,121, 143-153. https://linkinghub.elsevier.com/retrieve/pii/S0008622317305365 Year2016 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 Radioanalytical and Nuclear Chemistry 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 Formulating Uniform Pharmaceutical Polymer Microparticles with Variable Properties toward pH-Sensitive Controlled Drug Release. Polymers 2016,8 (5). https://doi.org/10.3390/polym8050195 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-Free Assembly 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 Year2015 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 porous Co-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 improvement of pore accessibility through post-synthesis hydrothermal treatments of spray dried SBA-15 microspheres. Chemical Engineering 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 ordered mesoporous 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@Graphene Nanobox Composites as Electrocatalytic Nanoreactors. Small 2015,11 (8), 1003-1010. https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.201402289 49. Lu, J.; Shen, H.-H.; Wu, Z.; Wang, B.; Zhao, D.; He, L., Self-assembly of bi-functional peptides on large-pore mesoporous silica nanoparticles for miRNA binding and delivery. Journal of Materials 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 microspheres with single-crystal-like anatase walls for high-efficiency optoelectronic devices. 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., Surface Modification 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 Monodispersed Mesoporous Carbon Hemispheres. Journal of the American Chemical Society 2015,137 (8), 2808-2811. https://pubs.acs.org/doi/10.1021/jacs.5b01522 Year2014 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 nanoparticles supported on ordered mesoporous carbon. Journal of Materials Chemistry A 2014,2 (46), 19903-19913. 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 mesoporous microspheres with large pore sizes. Journal of Materials Chemistry A 2014,2 (43), 18322-18328. 41. Lv, Y.; Wu, Z.; Fang, Y.; Qian, X.; Asiri, A. M.; Tu, B.; Zhao, D., Hierarchical mesoporous/microporous carbon with graphitized frameworks for high-performance lithium-ion batteries. AplMaterials2014,2(11). https://aip.scitation.org/doi/pdf/10.1063/1.4897201 40. Li, W.; Wu, Z.; Wang, J.; Elzatahry, A. A.; Zhao, D., A Perspective on Mesoporous TiO2 Materials. Chemistry of Materials 2014,26 (1), 287-298. 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 Prussian Blue Nanocubes. Angewandte Chemie-International Edition 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/nanowire heterostructure as ultra-sensitive cellular interfaces. Npg Asia Materials 2014,6. https://doi.org/10.1038/am.2014.56 Year2013 37. Zhao, Z.; Tian, J.; Wu, Z.; Liu, J.; Zhao, D.; Shen, W.; He, L., Enhancing enzymatic stability of bioactive papers by implanting enzyme-immobilized mesoporous silica nanorods into paper. Journal of Materials Chemistry B 2013,1 (37), 4719-4722. 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 of Large-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. 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 highly efficient removal of microcystin-LR. Energy & Environmental Science 2013,6 (9), 2765-2776. 33. Lv, Y.; Wu, Z.; Qian, X.; Fang, Y.; Feng, D.; Xia, Y.; Tu, B.; Zhao, D., Site-Specific Carbon Deposition for Hierarchically Ordered Core/Shell-Structured Graphitic Carbon with Remarkable Electrochemical Performance. 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-5 Microspheres. Journal of the American Chemical Society 2013,135 (4), 1181-1184. Year2012 31. Wu, Z.; Webley, P. A.; Zhao, D., Post-enrichment of nitrogen in soft-templated ordered mesoporous carbon materials for highly efficient phenol removal and CO2 capture. Journal of Materials Chemistry 2012,22 (22), 11379-11389. 30. Wu, Z.; Lv, Y.; Xia, Y.; Webley, P. A.; Zhao, D., Ordered Mesoporous Platinum@Graphitic Carbon Embedded Nanophase as a Highly Active, Stable, and Methanol-Tolerant Oxygen Reduction Electrocatalyst. Journal of the American Chemical Society 2012,134 (4), 2236-2245. 29. Wu, Z.; Li, W.; Xia, Y.; Webley, P.; Zhao, D., Ordered mesoporous graphitized pyrolytic carbon materials: synthesis, graphitization, and electrochemical properties. Journal of Materials Chemistry 2012,22 (18), 8835-8845. 28. Wu, Z.; Li, W.; Webley, P. A.; Zhao, D., General and Controllable Synthesis of Novel Mesoporous Magnetic Iron Oxide@Carbon Encapsulates for Efficient Arsenic Removal. Advanced Materials 2012,24 (4), 485-491. 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 of skeletal 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 adsorption material by incorporating mesoporous carbon into macroporous chitosan membranes. Journal of Materials Chemistry 2012,22 (24), 11908-11911. 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 Porous TiO2 Shells for Multifunctional Core-Shell Structures. Journal of the American Chemical Society 2012,134 (29), 11864-11867. Year2011 24. Wu, Z.; Zhao, D., Ordered mesoporous materials as adsorbents. Chemical Communications 2011,47 (12), 3332-3338. 23. Wu, Z.; Hao, N.; Xiao, G.; Liu, L.; Webley, P.; Zhao, D., One-pot generation of mesoporous carbon supported nanocrystalline calcium oxides capable of efficient CO2 capture over a wide range of temperatures. Physical Chemistry Chemical Physics 2011,13 (7), 2495-2503. 22. Li, W.; Zhang, F.; Dou, Y.; Wu, Z.; Liu, H.; Qian, X.; Gu, D.; Xia, Y.; Tu, B.; Zhao, D., A Self-Template Strategy for the Synthesis of Mesoporous Carbon Nanofibers as Advanced Supercapacitor Electrodes. 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 to Functional Yolk-Shell Titanate Microspheres with Ultrathin Nanosheets-Assembled Double Shells. Journal of the American Chemical Society 2011,133 (40), 15830-15833. 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 structure for 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 mesostructured polymer-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 Pore Architectures for Nanodevices. Journal of the American Chemical Society 2011,133 (38), 15148-15156. 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 mesoporous silica shell nanostructure (LDH@mSiO(2)) and its application in drug delivery. Nanoscale 2011,3 (10), 4069-4073. Year2010 16. Wu, Z.; Webley, P. A.; Zhao, D., Comprehensive Study of Pore Evolution, Mesostructural Stability, and Simultaneous Surface Functionalization of Ordered Mesoporous Carbon (FDU-15) by Wet Oxidation as a Promising Adsorbent. Langmuir 2010,26 (12), 10277-10286. 15. Wu, Z.; Meng, Y.; Zhao, D., Nanocasting fabrication of ordered mesoporous phenol-formaldehyde resins with various structures and their adsorption performances for basic organic compounds. Microporous and 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 Crystalline gamma-Al2O3 with Variable Architecture and Porosity from a Single Hard Template. Journal of the American Chemical Society 2010,132 (34), 12042-12050. 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 hierarchical three-dimensional mesostructures for CO2 capture. Nano Research 2010,3 (9), 632-642. 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/carbon composites with high performance in oxidative dehydrogenation of ethylbenzene. Physical Chemistry Chemical Physics 2010,12 (36), 10996-11003. 11. Li, Q.; Wu, Z.; Tu, B.; Park, S. S.; Ha, C.-S.; Zhao, D., Highly hydrothermal stability of ordered mesoporous aluminosilicates Al-SBA-15 with high Si/Al ratio. Microporous and Mesoporous Materials 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 of Mesostructured Cellular Silica Foams. Journal of Physical Chemistry C 2010,114 (11), 5012-5019. 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-Crystal Mesoporous Carbons with Im(3)over-barm Symmetry. Chemistry of Materials 2010,22 (16), 4828-4833. 8. Gu, D.; Bongard, H.; Deng, Y.; Feng, D.; Wu, Z.; Fang, Y.; Mao, J.; Tu, B.; Schueth, F.; Zhao, D., An Aqueous Emulsion Route to Synthesize Mesoporous Carbon Vesicles and Their Nanocomposites. 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 Mesoporous Carbon 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 Year2009 6. Xu, Y.; Wu, Z.; Zhang, L.; Lu, H.; Yang, P.; Webley, P. A.; Zhao, D., Highly Specific Enrichment of Glycopeptides Using Boronic Acid-Functionalized Mesoporous 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 on ordered hexagonal mesoporous FDU-15 polymer and carbon materials. Adsorption-Journal of the International Adsorption 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-Graphitized Walls via Direct In-situ Silica-Confined Thermal Decomposition of CH4 and Their Hydrogen Storage Properties. Topics in Catalysis 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/Graphitic Carbon Composites with Nanocrystalline Walls and High Surface Areas via a Temperature-Programmed Carburization Route. Small 2009,5 (23), 2738-2749. https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.200900523 Year2008 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 walls of ordered mesoporous silica. Journal of Colloid and Interface Science 2008,328 (2), 338-343. https://linkinghub.elsevier.com/retrieve/pii/S0021979708011399 Year2006 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 polymer resin 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 |