2004年本科毕业于天津大学化学工程与工艺专业，2007年3月获天津大学化学工艺专业硕士学位，2009年6月获天津大学化学工艺专业博士学位

1、氧化羰基合成碳酸二乙酯Cu-HMS分子筛孔道调控及活性位研究，国家自然科学基金(21106054) 2、离子液体组装固体酸催化剂的载体效应及基团调控对制备生物柴油的影响，教育部博士点基金（20100093120003） 3、食品级软包装印刷水性油墨开发及产业化应用，江苏省产学研联合创新资金项目,（BY2014023-08） 4、水性油墨的研发，企业合作项目 5、甘油合成碳酸甘油酯的关键技术开发及产业化应用，企业合作项目 6、油酸的高值化利用，企业合作项目

[1]Zhang P B, Wu H, Liu Y L, Fan M M, Jiang P P, Dong Y M. Direct and postsynthesis of tin-incorporated SBA-15 functionalized with sulfonic acid for efficient biodiesel production, Fuel, 2019, 235: 426-432 [2]Zhu M N, Yue C G,Zhang P B*, Fan M M, Jiang P P, Dong Y M. Surface modification of KFimmobilizedon spherical magnetite nanoparticle with CTAB for glycerol carbonate production. Chemistryselect, 2019, 4(4), 1214-1219 [3]Zhang P B,Zhu M N, Fan M M, Jiang P P, Dong Y M. Rare earth doped calcium-based magnetic catalysts for transesterification of glycerol to glycerol carbonate. Journal of the Chinese Chemical Society, 2019, 66, 164-170 [4]Zhang P B, Shi M, Liu Y L, Fan M M, Jiang P P, Dong Y M. Magnetic solid base catalyst Fe3O4@Gly used as acid-resistant catalyst for biodiesel production. Journal of the Chinese Chemical Society, 2018, 65(6): 681-686 [5]Shi M,Zhang P B*, Liu Y L, Fan M M, Jiang P P, Dong Y M. Influence of crystal of Fe2O3in magnetism and activity of nanoparticle CaO@Fe2O3for biodiesel production, Fuel, 2017, 197: 343-347 [6]Zhang P B, Liu L H, Fan M M, Dong Y M, Jiang P P. The value-added utilization of glycerol for the synthesis of glycerol carbonate catalyzed with a novel porous ZnO catalyst, RSC Advances, 2016, 6(80): 76223-76230 [7]Zhang P B, Shi M, Liu Y L, Fan M M, Jiang P P, Dong Y M. Sr doping magnetic CaO parcel ferrite improving catalytic activity on the synthesis of biodiesel by transesterification, Fuel, 2016, 186: 787-791 [8]Fan M M, Liu Y L,Zhang P B*, Jiang P P. Blocky shapes Ca-Mg mixed oxides as a water-resistent catalyst for effective synthesis of biodiesel by transesterification, Fuel Processing Technology, 2016, 149: 163-168 [9]Zhang P B, Liu H, Fan M M, Liu Y L, Huang J L. Areview on biodiesel production by transesterification catalyzed by ionic liquid catalysts, Current Organic Chemistry, 2016, 20(7): 752-760 [10]Zhang P B, Liu Y L, Fan M M, Jiang P P. Catalytic performance of a novel amphiphilic alkaline ionic liquid for biodiesel production: Influence of basicity and conductivity,Renewable Energy, 2016, 86: 99-105 [11]Liu Y L,Zhang P B*, Fan M M, Jiang P P. Biodiesel production from soybean oil catalyzed by magnetic nanoparticle MgFe2O4@CaO,Fuel, 2016, 164: 314-321 [12]Zhang P B, Zhou Y, Fan M M, Jiang P P.PdCl2-loading mesoporous copper oxide as a novel and environmentally friendly catalyst for diethyl carbonate synthesis,Applied Surface Science, 2015, 332: 379-383(SCI) [13]Zhang P B, Zhou Y, Fan M M, Jiang P P. Catalytic synthesis of diethyl carbonate with supported Pd‐Cu bimetallic nanoparticle catalysts: Cu(I) as the active species,Chinese Journal of Catalysis, 2015, 36: 2036-2043 [14]Fan M M, Han Q J,Zhang P B*, Jiang P P. Enhanced catalytic activity for biodiesel synthesis using an acid-tolerant calcium/magnesium/aluminum-oxide hybrid with improved hydrophobicity and dispersibility,Energy Technology, 2015, 3(3): 211-215 [15]Zhang P B，Han Q J，Fan M M，Jiang P P. A novel waste water scale-derived solid base catalyst for biodiesel production,Fuel, 2014, 124: 66-72 [16]Zhang P B，Han Q J，Fan M M，Jiang P P. Magnetic solid base catalyst CaO/CoFe2O4for biodiesel production:Influence of basicity and wettability of the catalyst in catalytic performance,Applied Surface Science, 2014, 317: 1125-1130 [17]Zhang P B,Zhou Y, Fan M M, Jiang P P. Catalytic performance of PdCl2/Cu-HMS: Influence of hydrophobicity and structure of molecular sieves.Applied Surface Science, 2014, 295, 50-53 [18]Zhang P B,Zhou Y, Fan M M, Jiang P P.Effect of Hydrophobic Modification on the Catalytic Performance of PdCl2/Cu-HMS with Different Silylation Temperatures.Catalysis Letters, 2014,144: 320-324 [19]Fan M M, Huang J L, Yang J,Zhang P B*.Biodiesel production by transesterification catalyzed by an efficient choline ionic liquid catalyst.Applied Energy, 2013,108, 333-339 [20]Fan M M, Yang J, Jiang P P,Zhang P B*, Li S S. Synthesis of novel dicationic basic ionic liquids and its catalytic activities for biodiesel production.RSC Advances, 2013, 3(3): 752-756 [21]Zhang P B, Fan M M, Jiang P P. A novel method to reduce the influence of by-product water on the catalytic performance of PdCl2/Cu-HMS catalysts for the synthesis of diethyl carbonate.RSC Advances, 2012,2: 4593-4595 [22]Fan M M, Zhou J J, Han Q J,Zhang P B*. Effect of various functional groups on biodiesel synthesis from soybean oils by acidic ionic liquids.Chinese Chemical Letters, 2012, 23(10): 1107-1110(SCI) [23]Fan M M,Zhang P B*, Ma Q K.Enhancement of biodiesel synthesis from soybean oil by potassium fluoride modification of a calcium magnesium oxides catalyst.Bioresource Technology, 2012, 104(2): 447-450 [24]Zhang P B, Fan M M, Jiang P P. A novel method to reduce the influence of by-product water on the catalytic performance of PdCl2/Cu-HMS catalysts for the synthesis of diethyl carbonate.RSC Advances, 2012, 2(11): 4593-4595 [25]Zhang P B, Kang L X, Shu C Y, Fan M M. Hβ Supported K2CO3catalysts for dipropyl carbonate synthesis from transesterification route.Reaction Kinetics Mechanisms and Catalysis，2011, 103: 209-217 [26]Zhang P B,Huang S Y, Wang S P, Ma X B. Effect of extra-framework silicon on the catalytic activity of Cuβ zeolite catalyst for synthesis of diethyl carbonate by oxidative carbonylation of ethanol.Chemical Engineering Journal, 2011, 172: 526-530 [27]Zhang P B, Ma X B. Catalytic synthesis of diethyl carbonate by oxidative carbonylation of ethanol over PdCl2/Cu-HMS catalyst.Chemical Engineering Journal, 2010, 163(1-3): 93-97 [28]Zhang P B, Huang S Y, Yang Y, et al. Effect of SSIE structure of Cu-exchanged β and Y on the selectivity for synthesis of diethyl carbonate by oxidative carbonylation of ethanol: A comparative investigation.Catalysis Today, 2010, 149: 202-206

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