English
专任教师
谢文磊
发布时间:2026-06-30 21:55:05 作者:

 个人基本信息

 谢文磊,二级教授,博士研究生导师。国务院政府特殊津贴专家,河南省省管优秀专家,河南省科技创新杰出人才,首批河南省政府特殊津贴专家,河南省高等学校创新人才,河南省农副产品资源高效利用科技创新团队负责人,河南省化工学会理事, 河南省高校生物质利用科技创新团队负责人,河南省高校化学化工教学指导委员会委员,河南省工程硕士专业学位教育指导委员会会委员, 河南省高校青年骨干教师,河南省教育厅学术技术带头人,河南省生物质资源化工重点实验室学术带头人,中国化工学会精细化工专业委员会委员,《Advances in Chemical Engineering and Science》、《精细化工》、《食品安全质量检测学报》编委会委员,国家重点研发计划和国家自然科学基金项目评审专家。连续入选Elsevier2014年-2025年中国高被引学者榜单, Energy & Fuels年度影响力学者, 入选全球前2%顶尖科学家榜单。

主持省部以上项目17项,参与完成一项国家重点科技攻关项目和河南省重大科技攻关项目研究。近年来,主持国家自然科学基金面上项目4项,主持河南省科技创新杰出人才项目等6项。发表学术论文231篇,其中SCI论文108篇,以第一或通讯作者在国际主流期刊发表SCI论文86篇,14篇论文(均为第一作者)为ESI高被引论文(本领域全球前1%)。在科学出版社和化工出版社出版《粮油化工产品化学与工艺学》(主编)、《天然化工原料及产品手册》(主编)等专著或教材7部,参与编纂《中国化工产品大全》和《生物化工产品》(任副主编)等工具书。

联系方式:xwenlei@163.com

教育背景

兰州大学,化学系,有机化学专业,学士学位;

兰州大学,化学系,物理化学专业,硕士学位;

天津大学,化工学院,应用化学专业,博士学位

社会兼职

国务院政府特殊津贴专家

河南省优秀专家

首批河南省政府特殊津贴专家

河南省科技创新团队负责人

河南省科技创新杰出人才

河南省高等学校创新人才

河南省农副产品资源高效利用创新型科技团队

河南省高校生物质利用科技创新团队负责人

《Advances in Chemical Engineering and Science》编委

中国化工学会精细化工专业委员会委员

中文核心期刊《精细化工》杂志编委会委员

中国科技核心期刊《食品安全质量检测学报》编委会委员

河南省工程硕士教学指导委员会委员

河南省化学会常务理事

河南省化工学会理事

河南省高校青年骨干教师

河南省教育厅学术技术带头人

河南省化学化工教学指导委员会委员

河南省生物质资源化工重点实验室学术带头人

研究领域

生物油脂资源高效转化中新型催化材料设计及过程强化关键技术

主持项目

1.谢文磊(主持). 磁性金属-有机骨架复合材料功能化构造及催化油脂酯交换性能调控机制, 国家自然科学基金面上项目,经费70万,2018年-2021年,编号:21776062.

2.谢文磊(主持).多孔材料负载离子液体的功能化设计及对油脂酯交换催化作用, 国家自然科学基金面上项目,经费88万,2015年-2018年,编号:21476062.

3.谢文磊(主持).油脂酯-酯交换多相碱催化剂的可控构造及其催化作用本质,国家自然科学基金面上项目,经费82万,2013年-2015年,编号:21276066.

4.谢文磊(主持).生物油脂酯交换中双功能复合氧化物多相催化剂的研究,国家自然科学基金面上项目,经费36万,2011年-2013年,编号:21076062.

5.谢文磊(主持).多尺度功能化表面材料制备及催化性能研究.河南省科技创新杰出人才项目,经费50万,编号:144200510006.

6. 谢文磊(主持). 农副产品资源高效利用. 河南省科技创新团队项目编号: CXTD20160496.

7.谢文磊(主持).生物质资源利用,河南省高校科技创新团队项目,2012-2015年,经费60万,编号:2012IRTSTHN009.

8.谢文磊(主持).生物柴油生产中催化剂的活性和稳定性研究.河南省高校创新人才项目,经费40万,编号:2009HASTIT024.

9. 谢文磊(主持). 多尺度多孔纳米复合材料的功能化设计及催化生物油脂酯交换机制. 河南省高等学校重点科研项目计划基础研究专项,经费30万,编号:19zx002.

10.谢文磊(主持). 先进催化材料的功能化设计及在质构化油脂食品生产中应用,河南省属高校基本科研业务费专项资金.

发表论文

[1] Jia X, Xie W, Li H. Acidic ionic liquid-decorated covalent organic framework TpPa–SO₃H: a reusable solid acid catalyst used for sustainable biodiesel production from low-grade acidic oils [J]. Reaction Chemistry & Engineering, 2025, 10 (8): 1932-1948.

[2] Li S S, Xie W. Research Progress in Utilization of Heterogeneous Porous Solid Catalysts for the Catalytic Conversion of Lignocellulose to 5-Hydroxymethylfurfural: Synthesis, Catalytic Performance, and Challenges [J]. ChemBioEng Reviews, 2025: e70028.

[3] Hou S, Xie W. Exploring hierarchical porous γ-Al₂O₃ modified with MoV metal oxides used as a high-efficiency solid catalyst for sustainable biodiesel production from low-cost acidic oils [J]. Renewable Energy, 2025: 123303.

[4] Zhang Q, Hou Y, Zhang Y, et al. Mo‐Modified Zirconium Phosphate Solid Acid Catalysts for Sustainable Biodiesel Production from Low-Value Acidic Oils [J]. ChemCatChem, 2025, 17 (17): e00840.

[5] Zhao H, Xie W, Li H. Hierarchical micro-meso-macroporous xAIL@HP UIO-66-NH₂ catalysts used for efficient biodiesel production from low-grade acidic oils [J]. Chemical Engineering Research and Design, 2025, 213: 11-24.

[6] Hierarchical micro-meso-macroporous xAIL@HP UIO-66-NH₂ catalysts used for efficient biodiesel production from low-grade acidic oils [J]. Chemical Engineering Research and Design, 2025, 213: 11-24.

[7] Hou S, Xie W. Three-dimensional hierarchical meso/macroporous Mo/Ce/TiO2 composites enhances biodiesel production from acidic soybean oil by transesterification-esterifiications[J]. Energy Conversion and Management, 2024, 305: 118273.

[8] Xie W, Wang X, Guo L. Utilization of Keplerate-type polyoxomolybdates {Mo132} supported on hierarchical porous SOM-ZIF-8 as reusable catalyst boosts biodiesel production from acidic soybean oils by simultaneous transesterification-esterifications[J]. Renewable Energy, 2024, 225: 120312.

[9] Li K, Xie W. Enhanced biodiesel production from low-value acidic oils using ordered hierarchical macro–mesoporous MoAl@ H-SiO2 catalyst[J]. Fuel, 2024, 364: 131105.

[10] Xie W, Wang X, Guo L. Boosting biodiesel production from acidic oils using tin-doped tungstophosphoric acid embedded on ZIF-8 with Brönsted-Lewis acid sites as a reusable catalyst[J]. Biomass and Bioenergy, 2024, 181: 107064.

[11] Xie W L*, Li J B. Magnetic solid catalysts for sustainable and cleaner biodiesel production: A comprehensive review [J]. Renewable and Sustainable Energy Reviews, 2023, 171: 113017.

[12] Zhang G Q, Xie W L*. ZrMo oxides supported catalyst with hierarchical porous structure for cleaner and sustainable production of biodiesel using acidic oils as feedstocks [J]. Journal of Cleaner Production, 2023, 384: 135594.

[13] Gu L H, Xie W L*, Gao C L. Heterogeneous H₆PV₃MoW₈O₄₀/AC-Ag catalyst for biodiesel production: Preparation, characterization and catalytic performance [J]. Fuel, 2022, 316: 123352.

[14] Wang Q, Xie W L*, Gu L H. Molybdenum and zirconium oxides supported on KIT-6 silica: A recyclable composite catalyst for one–pot biodiesel production from simulated low-quality oils [J]. Renewable Energy, 2022, 187: 907-922.

[15] Xie W L*, Gao C L, Li J B. Sustainable biodiesel production from low-quantity oils utilizing H₆PV₃MoW₈O₄₀ supported on magnetic Fe₃O₄/ZIF-8 composites [J]. Renewable Energy, 2021, 168: 927-937.

[16] Xie W L*, Wang H. Grafting copolymerization of dual acidic ionic liquid on core-shell structured magnetic silica: A magnetically recyclable Brönsted acid catalyst for biodiesel production by one-pot transformation of low-quality oils [J]. Fuel, 2021, 283: 118893. (ESI 高被引论文)

[17] Ji J M, Xie W L*. Removal of aflatoxin B₁ from contaminated peanut oils using magnetic attapulgite [J]. Food Chemistry, 2021, 338: 927-937.

[18] Xie W L*, Huang M Y. Fabrication of immobilized Candida rugosa lipase on magnetic Fe₃O₄-poly (glycidyl methacrylate-co-methacrylic acid) composite as an efficient and recyclable biocatalyst for enzymatic production of biodiesel [J]. Fuel, 2020, 158: 474-486.

[19] Xie W L*, Wang H. Synthesis of heterogenized polyoxometalate-based ionic liquids with Brönsted-Lewis acid sites: a magnetically recyclable catalyst for biodiesel production from low-quality oils [J]. Journal of Industrial and Engineering Chemistry, 2020, 87: 162-172.

[20] Ji J M, Xie W L*. Detoxification of Aflatoxin B₁ by magnetic graphene composite adsorbents from contaminated oils [J]. Journal of Hazardous Materials, 2020, 381: 120915.

[21] Xie W L*, Gao C L, Wang H Y. Biodiesel production from low-quality oils using heterogeneous cesium salts of vanadium-substituted polyoxometalate acid catalyst [J]. Catalysts, 2020, 10: 1060.

[22] Xie W L*, Wang H. Immobilized polymeric sulfonated ionic liquid on core-shell structured Fe₃O₄/SiO₂ composites: a magnetically recyclable catalyst for simultaneous transesterification and esterifications of low-cost oils to biodiesel [J]. Renewable Energy, 2020, 145: 1709-1719. (ESI 高被引论文)

[23] Xie W L*, Huang M Y. Immobilization of polyoxometalate-based sulfonated ionic liquids on UiO-66-2COOH metal-organic frameworks for biodiesel production via one-pot transesterification-esterification of acidic vegetable oils [J]. Chemical Engineering Journal, 2019, 365: 40-50. (ESI 高被引论文)

[24] Xie W L*, Wan F. Guanidine post-functionalized crystalline ZIF-90 frameworks as a promising recyclable catalyst for the production of biodiesel via soybean oil transesterification [J]. Energy Conversion and Management, 2019, 198: 111922.

[25] Xie W L*, Wan F. Biodiesel production from acidic oils using polyoxometalate-based sulfonated ionic liquids functionalized metal-organic frameworks [J]. Catalysis Letters, 2019, 149: 2916-2929.

[26] Xie W L*, Huang M Y. Enzymatic production of biodiesel using immobilized lipase on core-shell structured Fe₃O₄@MIL-100 (Fe) composites [J]. Catalysts, 2019, 9: 850.

[27] Xie W L*, Wan F. Basic ionic liquid functionalized magnetically responsive Fe₃O₄@HKUST-1 composites used for biodiesel production [J]. Fuel, 2018, 220: 248-256. (ESI 高被引论文)

[28] Xie W L*, Huang M Y. Immobilization of Candida rugosa lipase onto graphene oxide Fe₃O₄ nanocomposite: characterization and application for biodiesel production [J]. Energy Conversion and Management, 2018, 159: 42-53. (ESI 高被引论文)

[29] Xie W L*, Zang X Z. Lipase immobilized on ionic liquid-functionalized magnetic silica composites as a magnetic biocatalyst for production of trans-free plastic fats [J]. Food Chemistry, 2018, 257: 15-22. (ESI 高被引论文)

[30] Xie W L*, Han Y X, Wang H Y. Magnetic Fe₃O₄/MCM-41 composite-supported sodium silicate as heterogeneous catalysts for biodiesel production [J]. Renewable Energy, 2018, 125: 675-681. (ESI 高被引论文)

[31] Xie W L*, Zhang C. Production of medium-chain structured lipids using dual acidic ionic liquids supported on Fe₃O₄@SiO₂ composites as magnetically recyclable catalysts [J]. LWT-Food Science and Technology, 2018, 93: 71-78.

[32] Xie W L*, Zhang C, Wang H Y. Polymeric acidic ionic liquid-functionalized SBA-15 as a solid catalyst for production of low-calorie structured lipids [J]. Journal of the American Oil Chemists Society, 2018, 95: 1549-1559.

发明专利

1] 谢文磊,王宏雁,叶双,等。一种含有中链或短链脂肪酸的结构脂的生产方法 [P]. 河南省:ZL202211631023.3,2025-06-17.

[2] 谢文磊,臧雪珍,张弛,王宏雁。磁性核-壳型离子液体固定化脂肪酶的制备方法及在食用油脂加工中的应用 [P], ZL 201510759404.3.

[3] 谢文磊,张弛,王宏雁。中长链脂肪酸油脂的制备方法 [P],ZL 201510606202.5.

[4] 谢文磊,张弛,王宏雁。高疏水性耐高温固体酸催化剂 [P],ZL 201510607646.0.

[5] 谢文磊,臧雪珍,张弛,王宏雁。一种磁性羟基磷灰石固定化脂肪酶的制备方法及在食用油脂加工中的应用[P],ZL 201510759403.9.

[6] 谢文磊,韩玉香,王宏雁。一种固载二甲基双胍催化剂的制备方法 [P],ZL 201610205390.5.

[7] 谢文磊,韩玉香,王宏雁。固载二甲基双胍的磁性固体碱催化剂的制备方法 [P],ZL 201610203722.6.

[8] 谢文磊,胡朋涛,王宏雁。固载化磷钨酸铯盐催化剂的制备方法及应用 [P],ZL 201610366847.0.

[9] 谢文磊,张弛,王宏雁. SBA15 固载聚合酸性离子液体催化剂 [P],ZL 201611110377.8.

奖励与荣誉

谢文磊,王宏雁,张成鹏,杨书平,郭丽红,楚军政,胡东阳,王婷,张立权,张巧飞.高效油脂衍生化学品制备固体催化剂的研制及工业应用. 河南省科技进步贰等奖,2022-J-43 R01/10 , 2022年


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