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服务平台首页>协同创新>专家库>专家详情

潘大海(博士)

所属单位:太原理工大学化学化工学院

担任职务:博士

擅长领域:

联系方式:0351-6010111 邮箱:登录后查看

1977年3月出生。2004年太原理工大学化学化工学院获硕士学位,2010年中国石油大学(北京) 化学科学与工程学院获博士学位,2011.11~2014.04太原理工大学化学工程与技术博士后科研流动站博士后,2017.06~2018.07澳大利亚昆士兰大学AIBN访问学者。主要从事功能化介孔材料的设计合成及其在固体酸/碱,加氢/脱氢,氧化–还原等多相催化领域中的应用研究。作为负责人先后承担完成国家自然科学基金、中国博士后基金及山西省自然科学基金等多个项目,具有多年从事纳米催化材料合成及其应用的研究基础和工作积累。作为第一作者或通讯作者发表SCI论文10余篇,授权国家发明专利8多项。

主要成就

1.学术论文 (1)Pan D H, Yuan P, Zhao, L Z, Liu N, Zhou L, Wei G F, Zhang J, Ling Y C, Fan Y, Wei B Y, Liu H Y, Yu C Z*, and Bao X J*. New understanding and simple approach to synthesize highly hydrothermally stable and ordered mesoporous materials. Chemistry of Materials, 2009, 21, 5413-5425. (2)Pan D H, Tan L, Qian K, Zhou L, Fan Y, Wei B Y, Yu C Z*, and Bao X J*. Synthesis of highly ordered and hydrothermally stable mesoporous materials using sodium silicate as a precursor. Materials Letters, 2010, 64, 1543-1545. (3)Pan D H, Zhao, L Z, Qian K, Tan L, Zhou L, Zhang J, Huang X D, Fan Y, Liu H Y, Yu C Z*, and Bao X J*. A silanol protection mechanism: Understanding the decomposition behavior of surfactants in mesostructured solids, Journal of Materials Research, 2011, 26, 804-814. (4)Pan D H, Li T S, Zhao L Z, Zhou L, Yu C Z*, and Bao X J*. Designed synthesis and characterization of ordered mesoporous materials with high microspore content. Scientia Sinica China, 2011, 41, 813-820. (5)Li Y, Pan D H, Yu C Z*, Fan Y, and Bao X J*. Synthesis and hydrodesulfurization properties of NiW catalyst supported on high-aluminum-content, highly ordered, and hydrothermally stable Al-SBA-15. Journal of Catalysis, 2012, 286, 124-136. (6)Wang X Y, Pan D H*, Guo M, He M, Niu P Y, and Li R F*. Facile synthesis of highly ordered mesoporous alumina with high thermal and hydrothermal stability using zirconia as promoter. Materials Letters, 2013, 97, 27-30. (7)Pan D H, Guo M, He M, Chen S W, Wang Y, Yu F, and Li R F*. Facile synthesis of highly ordered mesoporous chromium-alumina catalysts with improved catalytic activity and stability. Journal of Materials Research, 2014, 29, 811-819. (8)Wang X, Pan D H*, Xu Q, He M, Chen S W, Yu F, and Li R F*. Synthesis of ordered mesoporous alumina with high thermal stability using aluminum nitrate as precursor. Materials Letters, 2014, 135, 35-38. (9)Pan D H*, Xu Q, Dong Z Y, Chen S W, Yu F, Yan X L, Fan B B, and Li R F*. Facile synthesis of highly ordered mesoporous cobalt-alumina catalysts and their application in liquid phase selective oxidation of styrene. RSC Advances, 2015, 5, 98377-98390. (10) Xu Q, Dong Z Y, Shi G L, Pan D H*, Yu F, Chen S W, and Li R F*. Optimized synthesis and characterization of highly ordered mesoporous Al-SBA-15 with high hydrothermal stability. Chemical Journal of Chinese Universities-Chinese, 2015, 36, 2355-2363. (11) Pan D H*, Dong Z Y, He M, Chen S W, Yu F, Fan B B, Cui X Y, and Li R F*. Structural and surface properties of highly ordered mesoporous magnesium-aluminium composite oxides derived from facile synthesis. Materials Chemistry and Physics, 2017, 186, 574-583. (12) Pan D H*, Chen W, Yu F, Chen S W, Yan X L, Shi X Y, Fan B B, and Li R F*. Synthesis of ordered macro-mesoporous Mg-Al composite oxides with high thermal stability and mechanical strength. Materials Letters, 2018, 224, 33-36. (13) Pan D H*, Liu D L, Yu F, Chen S W, Yan X L, Shi X F, Fan B B, and Li R F*. Synthesis of ordered mesoporous Mg-Al composite oxide-supported potassium catalysts for biodiesel production. Catalysis Communications, 2018, 116, 76-80. (14) Pan D H, Chen W, Huang X D, Zhang J, Yang Y N, Yu F, Chen S W, Fan B B, Shi X F, Cui X Y, Li R F*, and Yu C Z*. Solvothermal-assisted evaporation-induced self-assembly of ordered mesoporous alumina with improved performance. Journal of Colloid and Interface Science, 2018, 529, 432-443. (15) Yu F, Bi S N, Liu T H, Pan D H*, Chen S W, Yan X L, Fan B B, and Li R F*. Synthesis of Ordered Mesoporous Zr-Al Composite Oxides with Excellent Structural and Textural Properties and Extremely High Stability. Materials, 13, 3036-3052. 2.授权专利 (1)一种有序氧化锆-氧化铝介孔材料及其制备方法,2014.03.12,中国,ZL201110251654.8 (2)一种高热稳定有序介孔氧化铝材料及其制备方法,2014.12.03,中国,ZL201310458789.0 (3)一种负载铬基的介孔催化剂及其制备方法和应用,2016.08.17,中国,ZL201410739520.4 (4)工业副产石膏气动式蒸压生产α-半水石膏的装置和方法,2016.08.24,中国,ZL201410541719.6 (5)物料混合干燥系统装置和方法,2018.11.30,中国,ZL201710080582.2 (6)一种有序氧化铝介孔材料及其制备方法,2018.10.02,中国,ZL201710253429.5 (7)一种大孔-介孔有序镁-铝复合氧化物材料及其制备方法,2019.02.12,中国,ZL201710253428.0 (8)双组分复合氧化铝高热稳定有序介孔材料及其制备方法,2019.11.29,中国,ZL201710252681.4 3.主持科研项目 (1)国家自然科学基金委,国家自然科学基金面上项目,21975174,MCH低温高效脱氢镍基催化剂的构建及其催化性能研究,2020.01至2023.12,65 万元。 (2)山西省科学技术厅,山西省应用基础研究面上自然基金项目,201801D121057,介孔铝基复合氧化物的可控合成及其性能研究,2018.01至2020.12,5 万元。 (3)国家自然科学基金委,国家自然科学基金应急管理项目,51451002,介孔氧化铝的结构修饰及其性能研究,2015.01至2015.12,15 万元。 (4)中国博士后科学基金会,中国博士后科学基金项目,2012M510783,杂原子引入对介孔氧化铝改性研究及其应用,2012.05至2014.05,5万元。 (5)山西省科学技术厅,山西省自然科学基金(青年)项目,2012021006-2,基于硬模板体系高温水热合成高水热稳定有序介孔材,2012.01至2014.12,5万元。