姓名:Mohammad Asraful Alam;
出生年月:1986年1月;
籍贯:孟加拉国;
职称:副教授
Email: alam@zzu.edu.cn
Mobile: +8613083608578
1.学习经历
2005.04-2008.04孟加拉大学ofDevelopment Alternative本科
专业:生物技术与基因工程
2008.04-2010.04孟加拉大学ofDevelopment Alternative硕士
专业:生物技术与基因工程,导师:Mohammed Rahmatullah
2010.09-2015.04大连理工大学博士
专业:生物化工,导师:白凤武
2.工作经历
2015.08-2018.12中国科学院广州能源研究所博士后;合作导师:王忠铭
2019.01-2019.12郑州大学讲师
2020.01-今 郑州大学副教授
3.研究方向:
微藻高值化利用技术开发,农林废弃资源生化转化与高值化利用、新型液体燃料生物合成、工业废气能源化利用、化工有机酸生物合成、稀有功能糖生物催化转化、能化联产工艺技术开发等。
4.所有科研项目(主持)
(1)国家自然科学基金委员会,Study on the mechanism of microalgae self-flocculation for harvesting and lipid extraction(微藻自絮凝采收和油脂提取机制研究),21650110457,2017-01至2018-12,39.96万元,主持人;
(2)国家自然科学基金委员会,国际(地区)合作与交流项目,固定化微藻细胞两段培养协同增效脱氮除磷机理研究,22261132515,2023-01-01至2025-12-31,105万元,在研,参与;
(3)国家自然科学基金委员会,面上项目,解脂耶氏酵母利用纤维糖合成支链长链醇代谢调控研究,22078308 , 2021-01-01至2024-12-31,63万元,在研,参与
(4)河南省教育厅,河南省高校科技创新团队支持计划,生物质高值化利用,22IRTSTHN007,2022-01至2024-12,100.0万元,在研,参与;
(5)河南省科技厅,中原科技创新领军人才,纤维原料全组分高值生物转化利用关键技术研究,214200510009,2021-01至2022-12, 100.0万元,在研,参与。
5.所有第一或通讯作者的论文,包括郑大非第一单位的论文,但需要注明。
[1].Alam MA, Deng L, Ngatcha AD, Fouegue AD, Wu J, Zhang S, Zhao A, Xiong W, Xu J. Biodiesel production from microalgal biomass by Lewis acidic deep eutectic solvent catalysed direct transesterification. Industrial Crops and Products. 2023; 206:117725. (IF 5.9,1区)
[2].Ngatcha AD, Zhao A, Zhang S, Xiong W, Sarker M, Xu J,Alam MA. Determination of active sites on the synthesis of novel Lewis acidic deep eutectic solvent catalysts and kinetic studies in microalgal biodiesel production. RSC advances. 2023;13(15):10110-22.通讯作者)(IF 3.9,3区)
[3].Ngatcha AD, Muhammad G, Lv Y, Xiong W, Zhao A, Xu J,Alam MA. Microalgae biomass pre-treatment with deep eutectic solvent to optimize lipid isolation in biodiesel production. Biomass Conversion and Biorefinery. 2022; 133-43.(通讯作者)(IF 4,3区)
[4].Muhammad G, Wang J, Xiong W, Lv Y, Zhang S, Zhao A, Jahanbakhsh-Bonab P, Solovchenko A, Xu J,Alam MA. Polyol based deep eutectic solvent-assisted pretreatment for enhanced lutein extraction fromChlorella pyrenoidosa. Journal of Molecular Liquids. 2022; 368:120775.(通讯作者)(IF 6,2区)
[5].Muhammad G, Butler TO, Chen B, Lv Y, Xiong W, Zhao X, Solovchenko AE, Zhao A, Mofijur M, Xu J,Alam MA. Sustainable production of lutein—an underexplored commercially relevant pigment from microalgae. Biomass Conversion and Biorefinery. 2022; 1-22.(通讯作者)(IF 4,3区)
[6].Liang D,Alam MA, Lu L, Fan R, Xu J, Wu J. Water-plasma-enhanced and phase-separation-assisted extraction of microalgal lipid for biodiesel production. Bioresource Technology. 2022; 354:127198.(通讯作者)(IF 11.4,1区)
[7].Alam MA, Wan C, Tran DT, Mofijur M, Ahmed SF, Mehmood MA, Shaik F, Vo DV, Xu J. Microalgae binary culture for higher biomass production, nutrients recycling, and efficient harvesting: a review. Environmental Chemistry Letters. 2022; 20(2):1153-68.(IF 17.5,2区)
[8].Muhammad G, Ngatcha AD, Lv Y, Xiong W, El-Badry YA, Asmatulu E, Xu J,Alam MA. Enhanced biodiesel production from wet microalgae biomass optimized via response surface methodology and artificial neural network. Renewable Energy. 2022; 184:753-64.(通讯作者)(Highly cited paper)(IF 8.7,1区)
[9].Alam MA, Muhammad G, Khan MN, Mofijur M, Lv Y, Xiong W, Xu J. Choline chloride-based deep eutectic solvents as green extractants for the isolation of phenolic compounds from biomass. Journal of cleaner production. 2021; 309:127445.(Highly cited paper)(IF 11.1,1区)
[10].Muhammad G,Alam MA, Mofijur M, Jahirul MI, Lv Y, Xiong W, Ong HC, Xu J. Modern developmental aspects in the field of economical harvesting and biodiesel production from microalgae biomass. Renewable and Sustainable Energy Reviews. 2021; 135:110209.(通讯作者)(Highly cited paper)(IF 15.9,1区)
[11].Xu J, Wang M,Alam MA, Muhammad G, Lv Y, Zhu C, Zhang H, Xiong W. Fabricating a gel electrolyte based on lignin-coated nanosilica to enhance the reversibility of zinc anodes for rechargeable aqueous Zn/MnO2batteries. ACS Sustainable Chemistry & Engineering. 2022 Jan 31;10(6):2063-71.(通讯作者)(IF 8.4,1区)
[12].Alam MA, Parra-Saldivar R, Bilal M, Afroze CA, Ahmed MN, Iqbal HM, Xu J. Algae-derived bioactive molecules for the potential treatment of SARS-CoV-2. Molecules. 2021; 26(8):2134.(IF 4.6,3区)
[13].Ong HC, Tiong YW, Goh BH, Gan YY, Mofijur M, Fattah IR, Chong CT,Alam MA, Lee HV, Silitonga AS, Mahlia TM. Recent advances in biodiesel production from agricultural products and microalgae using ionic liquids: Opportunities and challenges. Energy Conversion and Management. 2021; 228:113647.(通讯作者).(Highly cited paper)(IF 10.4,1区)
[14].Xu C,Alam MA, Wang Z, Peng Y, Xie C, Gong W, Yang Q, Huang S, Zhuang W, Xu J. Co-fermentation of succinic acid and ethanol from sugarcane bagasse based on full hexose and pentose utilization and carbon dioxide reduction. Bioresource Technology. 2021; 339:125578.(通讯作者)(IF 11.4,1区)
[15].Lu W,Alam MA, Liu S, Xu J, Saldivar RP. Critical processes and variables in microalgae biomass production coupled with bioremediation of nutrients and CO2from livestock farms: A review. Science of the Total Environment. 2020; 716:135247.(通讯作者)(IF 9.8,1区)
[16].Shahid A, Malik S, Zhu H, Xu J, Nawaz MZ, Nawaz S,Alam MA, Mehmood MA. Cultivating microalgae in wastewater for biomass production, pollutant removal, and atmospheric carbon mitigation; a review. Science of the Total Environment. 2020; 704:135303.(通讯作者)(Highly cited paper)(IF 9.8,1区)
[17].Alam MA, Yuan T, Xiong W, Zhang B, Lv Y, Xu J. Process optimization for the production of high-concentration ethanol withScenedesmus raciborskiibiomass. Bioresource Technology. 2019; 294:122219.(IF 11.4,1区)
[18].Alam MA, Wu J, Xu J, Wang Z. Enhanced isolation of lipids from microalgal biomass with high water content for biodiesel production. Bioresource Technology. 2019; 291:121834.(IF 11.4,1区)
[19].Mofijur M, Rizwanul Fattah IM, Saiful Islam AB, Uddin MN, Ashrafur Rahman SM, Chowdhury MA,Alam MA, Uddin MA. Relationship between weather variables and new daily COVID-19 cases in Dhaka, Bangladesh. Sustainability. 2020;12(20):8319.(通讯作者)(IF 3.9,3区)
[20].Lu W,Alam MA, Luo W, Asmatulu E. IntegratingSpirulina platensiscultivation and aerobic composting exhaust for carbon mitigation and biomass production. Bioresource Technology. 2019; 271:59-65.(通讯作者)(IF 11.4,1区)
[21].Lu W,Alam MA, Wu C, Wang Z, Wei H. Enhanced deacidification of acidic oil catalyzed by sulfonated granular activated carbon using microwave irradiation for biodiesel production. Chemical Engineering and Processing-Process Intensification. 2019; 135:168-74.(通讯作者)(IF 4.3,3区)
[22].Alam MA, Vandamme D, Chun W, Zhao X, Foubert I, Wang Z, Muylaert K, Yuan Z. Bioflocculation as an innovative harvesting strategy for microalgae. Reviews in Environmental Science and Bio/Technology. 2016;15:573-83.(IF 14.1,1区)
[23].Alam MA, Wan C, Zhao XQ, Chen LJ, Chang JS, Bai FW. Enhanced removal of Zn2+or Cd2+by the flocculatingChlorella vulgarisJSC-7. Journal of Hazardous Materials. 2015; 289:38-45.(IF 13.6,1区)
[24].Alam MA, Wan C, Guo SL, Zhao XQ, Huang ZY, Yang YL, Chang JS, Bai FW. Characterization of the flocculating agent from the spontaneously flocculating microalgaChlorella vulgarisJSC-7. Journal of Bioscience and Bioengineering. 2014; 118(1):29-33.(IF 2.4,3区)
[25].Alam MA, Zhao XQ, Wan C, Zhang XY, Guo SL, Bai FW. Effect of temperature and pH on the cell growth of a flocculating microalgaChlorella vulgarisJSC-7, Chinese Journal of Microbiology, 34: 49-54 (2014).
[26].Wan C,Alam MA, Zhao XQ, Zhang XY, Guo SL, Ho SH, Chang JS, Bai FW. Current progress and future prospect of microalgal biomass harvest using various flocculation technologies. Bioresource technology. 2015; 184:251-7.(共同一作).(IF 11.4,1区)
[27].Alam MA, Jahan R, Rahman S, Das AK, Rahmatullah M. Antinociceptive and anti-hyperglycemic activity of methanol leaf extract ofCyperus scariosus. Pak J Pharm Sci. 2011; 24(1):53-6.(IF 0.8,4区)
[28].Alam MA, Azam FS, Karim MM, Rehana F, Sharmin N, Kalpana MA, Jahan R, Rahmatullah M, Khatun MA. In vitro regeneration ofPaederia foetida: a widely used medicinal vine in Bangladesh. American-Eurasian Journal of Sustainable Agriculture. 2010; 4(2):164-9.
[29].Alam MA, Jahan TA, Parveen F, Khan M, Jahan R, Rahamatullah M. Hormonal effects on clonal propagation ofWedelia chinensisL. Journal of Biotechnology. 2008(136):S162.(IF 4.1,2区)
[30].AlamMA, Khan M, Hassan MM, Ara KZ, Jahan R, Rahmatullah M. Clonal propagation ofPaederia foetidaL. Journal of Biotechnology. 2008(136): S161-2.(IF 4.1,2区)
6.发明专利
(1)许敬亮;熊文龙;张浩然;应汉杰;朱晨杰;庄伟;阿拉牧吕永坤;王明海.一种无机复合水凝胶电解质膜及其制备和在水系锌离子电池中的应用, ZL 202111178581.4,2022年10月28日
(2)许敬亮;熊文龙;胡心航;应汉杰;吕永坤;阿拉牧;王明海.一种用于水系锌离子电池正极的木质素和金属原子共掺杂MnO2材料及其制备方法与应用,ZL20201 0541035.1,2020年06月15日
(3)许敬亮;熊文龙;王明海;应汉杰;吕永坤;阿拉牧;胡心航.一种水系锌离子电池复配型凝胶电解液及其制备方法和应. ZL 202010587259.6,2020年06月24日
(4)许敬亮;王明海;熊文龙;应汉杰;屈凌波;阿拉牧;吕永坤张浩然;胡心航.用于水系锌离子电池电解液的添加剂、水系锌离子电池电解液及水系锌离子电池. ZL 2021 1 1318079.9,2021年11月05日
(5)许敬亮;熊文龙;王明海;应汉杰;吕永坤;阿拉牧;胡心航.一种水系锌离子电池复配型凝胶电解液及其制备方法和应用. ZL 2020 1 0587259.6, 2020年06月24日
(6)许敬亮;徐鹏;吕永坤;熊文龙;阿拉牧.一种柚皮素产物成瘾装置及其应用. ZL 2019 1 1240118.0,2019年12月04日
(7)齐高相;李超;阿拉牧;申渝;张海东;王建辉:尹文洁;高旭.补水水系异位生态沟渠污染拦截净化方法. ZL 2018 1 1545259.9,2018年12月17日
(8)许敬亮;赵安琪;李亚梅;吴利霞;王勉;张晓琴;应汉杰;吕永坤;阿拉牧.一种分枝杆菌固定化生产雄甾-1,4-二烯-3,17-二酮(ADD)的方法. CN114854636A,2022年08月05日
(9)许敬亮;阿拉牧;古力;邓利亚;赵安琪;吕永坤;熊文龙;张申.使用低共熔溶剂从微藻中级联提取色素和脂质方法. CN117164494A,2023年12月05日
(10)许敬亮;阿拉牧;安吉;邓利亚;赵安琪;吕永坤;熊文龙;张申.使用酸性低共熔溶剂一步法催化生产微藻脂肪酸甲酯方法. CN117568417A,2024年02月20日
7.获奖(包括科研和教学、指导学生竞赛等)
(1) Md. Asraful Alam (1/3);河南省第五届自然科学学术奖——河南省自然科学优秀学术著作二等奖,河南省人力资源和社会保障厅河南省科学技术协会,自然科学,省部二等奖, 2021; Md. Asraful Alam;许敬亮;王忠铭) (科研奖励)
(2) Md. Asraful Alam (1/4);河南省第五届自然科学学术奖——河南省自然科学优秀学术著作二等奖,河南省人力资源和社会保障厅河南省科学技术协会,自然科学,省部二等奖, 2021; Md. Asraful Alam;吴景程;许敬亮;王忠铭) (科研奖励)
(3) Mohammad Asraful Alam (1/1);优秀科技论文一等奖,河南省教育厅,自然科学,省部一等奖, 2022; Mohammad Asraful Alam (科研奖励)
(4) Md. Asraful Alam (1/1);农业秸秆分级高值化利用,河南省教育厅,自然科学,省部二等奖, 2022; Md. Asraful Alam (科研奖励)
8.社会兼职等
(1)主编
[1].Associate Editor, PLOS ONE; June 2021 to Present.
[2].Guest Editor: Frontiers in Energy Research; March 2021 to December 2021.
[3].Guest Editor:Biomass Conversion and Biorefinery; June 2021 to April 2022.
[4].2020/4-Present, Editorial board member, Current Chinese Science-Energy, Bentham Science; April 2020 to Present
[5].Book editor, Springer publisher, Netherlands. September 2017 to January 2021.
(2)审稿人
[1].Bangladesh Energy and Power Research Council (EPRC), review 2 proposals in 2020, and 3 proposals in 2021.
[2].National Science Academy (conacyt) Mexico, Reviewed 4 proposals in 2020.
(3)博士论文、硕士论文校外审查员
[1].Cairo University, Egypt
[2].University of Faisalabad, Pakistan
[3].Khulna University of Engineering & Technology (KUET), Bangladesh
(4)科学协会成员
[1].Executive committee member, Global network of Bangladeshi Biotechnologist (GNOBB).
[2].Member, American Association for the Advancement of Science (AAAS).
[3].Member, Asian Federation of Biotechnology (AFOB).
[4].Member, National Young Academy of Bangladesh (NYAB)