吴鹏

《Microporous Mesoporous Materials》副主编;《Chinese Journal of Catalysis》副主编；《Chinese Chemistry Letters》、《物理化学》、《化学世界》期刊的编委；中国催化专业委员会，分子筛专业委员会，均相催化专业委员会，绿色化学专业委员会委员以及上海市催化专业委员会委员，国家基金委化学科学部专家评委。

※ 新型沸石分子筛的设计合成和表征

※ 功能化纳米多孔催化材料的制备和应用研究

※ 绿色石油化学化工催化过程的研究

  独立完成日本文部科学省优秀青年资助科研项目2项；作为主要研究人员参与完成日本文部科学省及日本技术振兴机构（JST）重大项目2项；协助完成科技部973项目、 重点项目及上海市科委重点和重大项目各1项。目前主持科技部973子课题1项‚国家自然科学基金面上项目2项。获得日本新化学发展协会、日本石油学会以及日本触媒学会青年人奖3项个人奖励。2007年获上海市科学技术奖。先后入选国家教育部“新世纪优秀人才支持计划”、“上海市浦江人才计划”、“新世纪百千万人才工程国家级人选”和“2008年教育系统享受国务院特殊津贴专家”。
      在国外科技期刊发表颇具影响的学术论文100余篇（其中SCI论文80篇‚近40篇IF > 3的论文发表在J. Am. Chem. Soc.‚ Angew. Chem.‚ Adv. Funct. Mater.‚ Chem. Mater.‚ Chem. Commun.‚ J. Phys. Chem. B (C)‚ J. Catal.‚ Green Chem.‚ Catal. Today等国际核心杂志）、综述论文4篇、国际学术会议论文40余篇、日本及中国国内学术会议论文90余篇‚并申请国际、欧洲、美国、日本及中国发明专利40余项（20项已授权）。在各大型国际学术会议作口头报告20余次。

 
近期代表性论文：
1. “Methodology for Synthesizing Crystalline Metallosilicates with Expanded Pore Windows Through Molecular Alkoxysilylation of Zeolitic Lamellar Precursors”‚ J. Am. Chem. Soc.‚ 2008‚ 130 (26)‚ 8178–8187.
2. “Synthesis‚ Crystallization Mechanism and Catalytic Properties of Ti-rich TS-1 Free of Extraframework Ti Species”‚ J. Am. Chem. Soc.‚ 2008‚ 130‚ 10150–10164.
3. “Unique Solvent Effect of Microporous Crystalline Titanosilicates Oxidation of 1-Hexene and Cyclohexene”‚ J. Catal.‚ 2008‚ 256‚ 62–73.
4. “An Efficient Synthesis of (E)-Nitroalkenes Catalyzed by Recoverable Diamino-Functionalized Mesostructured Polymers”‚ Tetrahedron‚ 2008‚ 64‚ 6294–6299.
5. “Improving the Hydrophobicity and Oxidation Activity of Ti-MWW by Reversible Structural Rearrangement”‚ J. Phys. Chem. C‚ 2008‚ 112‚ 6132-6138.
6. “Effective and Reusable Pt Catalysts Supported on Periodic Mesoporous Resols for Chiral Hydrogenation”‚ Catal. Lett.‚ 2008‚ 122‚ 325-329.
7. “Post-Transformation of MWW-Type Lamellar Precursors into MCM-56 Analogues”‚ Microporous Mesoporous Mater. 2008‚113 (1)‚ 435-444.
8. “Novel Solid Acid Catalysts: Sulfonic Acid Group-Functionalized Mesostructured Polymers”‚ Adv. Funct. Mater.‚ 2007‚ 17‚ 2455-2461.
9. “Active Solid Acid Catalysts Prepared by Sulfonation of Carbonization-Controlled Mesoporous Carbon Materials”‚ Microporous Mesoporous Mater. 2007‚ 105‚ 41-48.
10. “Epoxidation of 2‚5-Dihydrofuran to 3‚4-Epoxytetrahydrofuran on Ti-MWW Catalysts”‚ Appl. Catal. A‚ 2007‚ 320‚ 173-180.
11. “Highly Efficient and Selective Production of Epichlorohydrin Through Epoxidation of Allyl Chloride with Hydrogen Peroxide over Ti-MWW Catalysts”‚ J. Catal.‚ 2007‚ 246‚ 205-214.
12. “Synthesis and Catalytic properties of A New Titanosilicate Molecular Sieve with the Structure Analogous to MWW-type Lamellar Precursor”‚ J. Catal.‚ 2006‚ 243‚ 183–191.
13. “A novel Titanosilicate with MWW Structure: Highly Effective Liquid-Phase Ammoximation of Cyclohexanone”‚ J. Catal.‚ 2006‚ 237‚ 359–367.
14. “Selective Liquid-Phase Oxidation of Cyclopentene over MWW Type Titanosilicate”‚ Catal. Today‚ 2006‚ 117‚ 199–205.
15. “NiAl Hydrotalcite as An Efficient and Environmentally Friendly Solid Catalyst for Solvent-Free Liquid-Phase Selective Oxidation of Ethylbenzene to Acetophenone with 1 Atm of Molecular Oxygen”‚ J. Catal.‚ 2006‚ 240‚ 268-274.
16. “Highly Efficient and Clean Synthesis of 3‚4-Epoxytetrahydrofuran over a Novel Titanosilicate Catalyst of Ti-MWW”‚ Green Chem.‚ 2006‚ 8‚ 78-81.
17. “Structure Elucidation of the Highly Active Titanosilicate Catalyst Ti-YNU-1”‚ Angew. Chem. Int. Ed.‚ 2005‚ 44‚ 6719-6723.
18. "Postsynthesis of Hexagonally Packed Porous Zirconium Phosphate through a Novel Anion Exchange between Zirconium Oxide Mesophase and Phosphoric Acid"‚ Chem. Mater.‚ 2005‚ 17‚ 3921-3928.
19. “Synthesis of Ti-MWW by A Dry-Gel Conversion Method”‚ Catal. Today‚ 2005‚ 99‚ 233-240.
20. “A Novel Titanosilicate with MWW Structure: Catalytic Properties in Selective Epoxidation of Diallyl Ether with Hydrogen Peroxide”‚ J. Catal.‚ 2004‚ 228‚ 183–191.
21. “Delamination of Ti-MWW and High Efficiency in Epoxidation of Alkenes with Various Molecular Sizes”‚ J. Phys. Chem. B‚ 2004‚ 108‚ 19126-19131.