一、团队简介
秸秆源化工新材料创新团队是武汉轻工大学校级创新团队,隶属化学与环境工程学院。团队依托“湖北省农副资源化学化工与利用工程技术研究中心、湖北省农作物秸秆能源与原料化工程技术研究中心、湖北省农业废弃物资源化利用国际科技合作基地”,致力于农作物秸秆资源的精深加工与高值转化利用研究,聚焦秸秆及其组分在功能性高分子材料、化工、能源、环境等领域中的应用延伸,为农副资源秸秆资源的高值化和全组分利用提供科学指导和技术支撑。团队是一支研究方向稳定、成员结构合理、聚焦国家和湖北省重大需求的高水准研究队伍,现有成员12人,其中,教授2人、副教授6人、博士讲师、实验师4人组成(含特聘国家杰青1人,楚天学子2人)。近五年来,团队承担国家级、省部级和市级纵向项目10余项;产学研合作项目10余项,累计科研经费500余万元;获国家授权发明专利20余项,发表论文100余篇,其中SCI等收录80余篇。
二、主要研究领域
(1)农作物秸秆资源的精深加工与高值转化利用技术
(2)基于静电纺丝技术构筑秸秆源功能材料及应用
(3)功能材料在锂/钠离子电池、超级电容器等领域的应用
(4)半导体、MOF、COF基催化材料在能源、环境领域的应用
(5)聚苯乙烯基高分子保温材料合成及应用
(6)CO2捕获与转化
(7)纳米薄膜材料在抗菌、食品保鲜中的应用
三、主要研究成果
(1)承担项目
[1]国家自然科学基金项目:基于MOFs构型的新型双助催化剂的设计构筑及其增强金属硫化物光催化还原CO2的研究,52102111,30万
[2]湖北省重点研发计项目:农业副产物中木质纤维素类资源高值利用关键技术研发,2020BBB068,50万
[3]中国博士后基金面上项目:三维石墨烯网络化吸附-催化体系去除水中微污染物研究,M642850,5万
[4]湖北省揭榜制科技项目:汽车零部件用高性能尼龙材料关键技术研发及应用,2021BEC016,100万
[5]湖北省自然科学基金青年项目:稻秆源醋酸纤维素/BiOCl纳米纤维薄膜的电纺构筑及其压电光催化的晶面效应研究,2021CFB218, 8万
[6]湖北省自然科学基金青年项目:基于稻秆源醋酸纤维素电纺制备ZnFe2O4/ZnO/C环保催化剂及净化四环素废水机制研究,2020CFB400,5万
[7]湖北省自然科学基金青年项目:稻秆源醋酸纤维素电纺构筑Z型磁性TiO2/g-C3N4/C环保催化剂及去除四环素机制研究,2019CFB159,4万
[8]湖北省自然科学基金青年项目:基于层状共轭材料构筑的高催化性吸附体系去除水体中抗生素研究,2017CFB140,10万
[9]湖北省粮食局科技项目:气调和控温储粮用隔气保温多功能新材料、新工艺开发与中试示范,20万
[10]湖北省教育厅项目:静电纺丝法构建磁性TiO2/g-C3N4异质结纤维及其去除新兴污染物的机制研究,2万
[11]湖北省教育厅项目:消除低导热系数石墨/可发性聚苯乙烯合成中阻聚效应的研究,2万
[12]湖北省教育厅青年人才项目:吸附催化双功能超级活性炭的制备及其去除双酚类环境激素的研究,Q20164503,4万
[13]湖北省教育厅项目:过渡金属单原子修饰的高结晶g-C3N4高效光催化净化空气,B2022253
[14]产学研合作项目:木质纤维素沥青改性剂关键技术研发及应用,200万
[15]产学研合作项目:秸秆源醋酸纤维素构筑光催化材料制备技术与产业化应用于污水处理,200万
[16]产学研合作项目:氮化碳基柔性纳米纤维膜光催化材料制备技术及产业化应用,48万
[17]产学研合作项目:汽车零部件用高性能尼龙材料关键技术研发及应用,50万
[18]产学研合作项目:城市生活垃圾催化热解技术及其应用研发,10万.
[19]专利成果转化项目:一种云母钛原位填充的聚苯乙烯银灰色保温材料的制备方法、其产品及应用(ZL201510599585.8),45万
[20]武汉轻工大学杰出青年科学基金项目:纳米带/管/纤维状二氧化钛-氮化碳磁性异质结光催化剂构筑及水体中抗生素去除机制研究,3万
(2)代表性论文
2023年
[1] Novel amino-functionalized Ni(II)-based MOFs for efficiently photocatalytic reduction of CO2to CO with superior selectivity under visible-light illumination, Novel 3D amino-functionalized Ni(II)-based MOFs for visible-light-driven conversion of CO2to CO with high selectivity,Chem. Eng. J.2023, 555: 140425. (一区, IF = 16.74)
[2] Synergistic effect of cyano defects and CaCO3in graphitic carbon nitride nanosheets for efficient visible-light-driven photocatalytic NO removal,J. Hazard. Mater.2023, 442: 130040. (一区, IF = 14.22)
[3] Effect of oxygen vacancies on the photocatalytic activity of flower-like BiOBr microspheres towards NO oxidation and CO2reduction,Sep. Purif. Technol.2023, 309: 123054. (一区, IF = 9.14)
[4] ZIF-8-derived nitrogen-doped porous carbon supported CuFeO2for sulfamethoxazole removal: performances, degradation pathways and mechanisms,J. Environ. Chem. Eng.Accepted, 2023. (二区, IF = 7.97)
[5] Carbonate-induced enhancement of phenols degradation in CuS/peroxymonosulfate system: A clear correlation between this enhancement and electronic effects of phenols substituents,J. Environ. Sci.2023, 129: 139-151. (二区, IF = 6.80)
[6] Advanced oxidative degradation of sulfamethoxazole by using bowl-like FeCuS@Cu2S@Fe0 catalyst to efficiently activate peroxymonosulfate,J. Environ. Sci.2023, 126: 348-364. (二区, IF = 6.80)
2022年
[1]Three-dimensional triptycene-functionalized covalent organic frameworks with hea net for hydrogen adsorption,Angew. Chem. Int. Edit.2022, 61(13): e202117101.(一区, IF = 16.82)
[2] Piezo-photocatalytic flexible PAN/TiO2composite nanofibers for environmental remediation,Sci. Total Environ.2022: 153790. (一区, IF = 10.75)
[3] Recovery and separation of Mo(VI) and Re(VII) from Mo-Re bearing solution by gallic acid-modified cellulose microspheres,Sep. Purif. Technol.2022, 281: 119879. (一区, IF = 9.14)
[4] Phenolic acids modified cellulose microspheres for selective capture of Bi(III): Batch, column and mechanism investigation,Sep. Purif. Technol.2022, 121290. (一区, IF = 9.14)
[5] Facile fabrication of tannic acid functionalized microcrystalline cellulose for selective recovery of Ga(III) and In(III) from potential leaching solution,Sep. Purif. Technol.2022, 286: 120442. (一区, IF = 9.14)
[6] Preparation of Li2MnO3nanowires with structural defects as high rate and high capacity cathodes for lithium-ion batteries,Appl. Surf. Sci., 2022, 585: 152605. (一区, IF = 7.39)
[7] Exfoliation-induced O-doped g-C3N4nanosheets with improved photoreactivity towards RhB degradation and H2evolution,Inorg. Chem. Front.2022, 9: 1423. (一区, IF = 7.8)
[8] Eco-friendly ZIF-67/rice straw-derived cellulose acetate electrospun nanofiber mats for efficient CO2capturing and selectivity removal of methyl orange dye,J. Environ. Chem. Eng.2022, 10 (6): 108989. (二区, IF = 7.97)
[9] Nitrogen-doped oxidized activated carbon as efficient metal-free bifunctional material for bisphenol removal: A tuning of surface chemistry,J. Environ. Chem. Eng.2022, 10, 108509.(二区, IF = 7.97)
2021年
[1] Drastic promotion of the photoreactivity of MOF ultrathin nanosheets towards hydrogen production by deposition with CdS nanorods,Appl. Catal. B-Environ.2021, 285: 119801.(一区, IF = 24.32, ESI高被引论文)
[2] Enhanced degradation of tetrabromobisphenol A by magnetic Fe3O4@ZIF-67 composites as a heterogeneous Fenton-like catalyst,Chem. Eng. J.2021, 413: 127539. (一区, IF = 16.74)
[3] Determination of Mn(II) and Mn(VII) in beverage samples using magnetic dispersive micro-solid phase extraction coupled with solidified floating organic drop microextraction followed by graphite furnace atomic absorption spectrometry,Food Chemistry, 2021, 359: 129958. (一区, IF = 9.23)
[4] Ultrahigh and selective adsorption of Au(III) by rich sulfur and nitrogen-bearing cellulose microspheres and their applications in gold recovery from gold slag leaching solution,Sep. Purif. Technol., 2021, 274: 119016. (一区, IF = 9.14)
[5] Investigation on the preparation of rice straw-derived cellulose acetate and its spinnability for electrospinning,Polymers2021, 13: 3463. (三区, IF = 4.97)
2020年
[1] Filling metal–organic framework mesopores with TiO2for CO2photoreduction,Nature, 2020, 586: 549-554. (一区, IF = 69.5)
[2] Fe1/TiO2hollow microspheres: Fe and Ti dual active sites boosting the photocatalytic oxidation of NO,Small, 2020: 2004583. (一区, IF = 15.15)
[3] Bi2O2Se as a novel cocatalyst for photocatalytic hydrogen evolution,Chem. Eng. J.2020, 400: 125931.(一区, IF = 16.74)
[4]Fluorine effects in TiO2photocatalysis,Chinese J. Catal., 2020, 41: 1451-1467. (一区, IF = 12.92)
[5]Fabrication of porous TiO2nanosheets assembly for improved photoreactivity towards X3B dye degradation and NO oxidation,Appl. Surf. Sci., 2020, 503: 144080.(一区, IF = 7.39)
[6] Three in one: Atomically dispersed Na boosting the photocatalytic activity of carbon nitride towards NO oxidation,Chem. Commun., 2020, 56: 14195-14198. (二区, IF=6.07)
[7] Copper and nitrogen-codoped graphene with versatile catalytic performances for fenton-like reactions and oxygen reduction reaction,Catalysts2020, 10(11): 1326. (三区, IF=4.50)
2019年
[1] Fabrication of high photoreactive carbon nitride nanosheets by polymerization of amidinourea for hydrogen production,Appl. Catal. B-Environ.2019, 245: 197-206. (一区, IF = 24.32)
[2]Noble-metal-free photocatalyst system obtained using BODIPY-based MOFs for highly efficient visible-light-driven H2evolution,J. Mater. Chem. A, 2019, 7: 20742-20749.(一区, IF = 14.51)
[3] A novel BODIPY-based MOF photocatalyst for efficient visible-light-driven hydrogen evolution,J. Mater. Chem. A, 2019, 7: 10439-10445. (一区, IF = 14.51)
[4]Direct electrospinning method for the construction of Z–scheme TiO2/g-C3N4/RGO ternary heterojunction photocatalysts,Chin. J. Catal.2019, 40: 458-469.(一区, IF = 12.92)
[5] Impregnation of semiconductor CdS NPs in MOFs cavities via double solvent method for effective photocatalytic CO2conversion,J. Catal.2019, 375: 21-31 (一区, IF = 8.05)
[6] Enhanced visible photocatalytic oxidation of NO by repeated calcination of g-C3N4,Appl. Surf. Sci., 2019, 465: 1037-1046. (一区, IF = 7.39, ESI高被引论文)
[7] Flower-like g-C3N4assembly from holy nanosheets with nitrogen vacancies for efficient NO abatement,Appl. Surf. Sci., 2019, 492: 166-176. (一区, IF = 7.39)
[8]Enhanced electrochemical performances of Li2MnO3cathode materials via adjusting oxygen vacancies content for lithium-ion batteries,Appl. Surf. Sci., 2019, 483: 270-277. (一区,IF=7.39)
[9]Magnetic ZnFe2O4nanotubes for dispersive micro solid-phase extraction of trace rare earth elements prior to their determination by ICP-MS,Microchimi. Acta, 2019, 186: 228-234.(二区,IF = 6.41)
[10]A Pillar Layered Zn-LMOF with Uncoordinated Carboxylic Acid Sites: High Performance for Luminescence Sensing Fe3+and TNP,Inorg. Chem.2019, 58(6): 4026-4032.(二区,IF = 5.44)
(3)授权发明专利
[1]稻秆源醋酸纤维素电纺制备柔性多孔炭纤维膜的方法及得到的柔性多孔炭纤维膜和其应用,ZL202011178048.3
[2]一种彩色聚合物导电珠粒及其制备方法,ZL201811109215.1
[3]消阻聚与同步阻燃的石墨发泡聚苯乙烯材料的合成方法,ZL201510729194.3
[4]一种硅溶胶包覆的石墨/苯乙烯共聚复合小球及其制备方法,ZL201810984943.0
[5]一种无卤膨胀阻燃剂-苯乙烯共聚复合小球及其制备方法,ZL201810984931.8
[6]一种具有成炭和导电性的聚氨酯/炭黑纤维及其制备方法,ZL201810765488.5
[7]一种疏水性SiO2包覆的无卤膨胀阻燃剂及其制备方法和应用,ZL201810985066.9
[8]一种云母钛原位填充的聚苯乙烯银灰色保温材料制备方法,ZL201710732012.7
[9]一种消减阻聚的磁性石墨/聚苯乙烯小球及其制备方法,ZL201810985057.X
[10]一种云母钛原位填充的聚苯乙烯银灰色保温材料的制备方法、其产品及应用,ZL201510599585.8
[11]消除炭黑或石墨在聚苯乙烯保温材料合成中阻聚效应的原位微胶囊方法,ZL201510964905.5
[12]基于废聚苯乙烯材料制备梯度阻燃可发泡聚苯乙烯珠粒的水相悬浮造粒法及其产品,ZL201510963752.2
[13]原位悬浮聚合一步法合成的彩色聚苯乙烯粒子制备方法,ZL200910067446.5
[14]一步法合成黑色可发性聚苯乙烯粒子的制备方法,ZL200910067037.5
[15]一种具有成炭和导电性的聚氨酯/炭黑纤维及其制备方法,ZL201810765488.5
[16]一种处理有机污水的纤维状Z型光催化剂TiO2/g-C3N4的制备方法,ZL 201710663999.1
[17]静电纺丝一步法制备氮化碳/二氧化钛异质结光催化剂的方法,ZL201710664000.5
[18]一种锂离子电池用ZnFe2O4多孔纳米管负极材料及其静电纺丝制备方法,ZL201610600021.6
[19]一种利用植物多酚改性的吸附树脂回收铋的方法,ZL202111590958
[20]一种高活性的单原子铁修饰TiO2空心微球的制备方法及其在光催化氧化NO中的应用,ZL202010412227.2
(4)指导研究生、大学生科技创新获奖
[1]2022年硕士研究生金龙鱼奖学金(获奖学生:郭名辉;指导教师:闫俊涛、孙亚)
[2]2022年湖北省第十二届“挑战杯”大学生创业计划竞赛银奖:秸出好材—秸秆和聚苯乙烯废弃物高值化利用(获奖学生:黄攀、顾原、尹博、周正、汪有容、刘金红、任玉凤、方馨茹、卢德昆、吴画;指导教师:闫俊涛、王春蕾)
[3]2022年湖北省第15届大学生化学化工学术创新成果报告会二等奖:Li2MnO3-δ纳米线的合成及电化学性能研究(获奖学生:涂志琪、郭名辉、陈美荷、于艳红;指导教师:孙亚、闫俊涛)
[4]2022年湖北省第15届大学生化学化工学术创新成果报告会三等奖:富氧空位花状BiOBr微球高选择性光转化CO2为CH4(获奖学生:谢鸿彬、曾锴、田晶晶、朱丽叶、李凯文、彭伟峰,指导教师:黎小芳、王春蕾)
[5]2022年湖北省第15届大学生化学化工学术创新成果报告会三等奖:原为悬浮聚合法可控合成磁性彩色聚苯乙烯珠粒的工艺研究(获奖学生:黄攀;指导教师:王春蕾)
[6] 2022年第八届湖北省普通高校大学生化学实验技能竞赛二等奖(获奖学生:莫兰芳;指导教师:王春蕾)
[7] 2021年湖北省第十四届大学生化学(化工)学术创新成果报告会三等奖:压电效应有效提高PAN/TiO2纳米纤维光催化活性(获奖学生:张程豪;指导教师:丁灯、闫俊涛)
[8] 2020年湖北省第十三届大学生化学(化工)学术创新成果报告会一等奖:基于稻秆源醋酸纤维素电纺制备多孔炭纤维膜(获奖学生:肖宇瞳;方馨茹;黄攀指导,指导教师:王春蕾;闫俊涛)
[9] 2020年湖北省第十三届大学生化学(化工)学术创新成果报告会一等奖:基于稻秆源醋酸纤维素电纺制备醋酸纤维素与P25多孔柔性纤维膜(获奖学生:沈逸琳;顾源;指导教师:王春蕾;闫俊涛)
[10] 2019年硕士研究生国家奖学金(获奖学生:胡黎明;指导老师:闫俊涛)
[11] 2016年第二届中国“互联网+”大学生创新创业大赛湖北复赛铜奖:基于互联网平台的智能垃圾分类收集系统(获奖学生:吴旺池、向成成、江加欢、高燊原,指导老师:闫俊涛)
[12] 2016年“创青春”湖北省大学生创业大赛公益创业赛银奖:基于互联网平台的智能垃圾分类收集系统(获奖学生:江加欢、徐旭阳、高燊原、吴旺池,指导老师:闫俊涛)
四、师生风采
五、联系方式