个人简介
孙润仓,男,1955年2月生,陕西岐山人,教授,博士生导师,“国家高层次人才”特聘教授项目入选者。1982年2月毕业于西北大学化学系,1996年获英国威尔士大学博士学位,曾兼任华南理工大学制浆造纸工程国家重点实验室主任(2008. 8-2015. 5)及北京林业大学材料科学与技术学院院长(2011. 10-2015. 9),现为大连工业大学轻工与化学工程学院教授、博士生导师。四十年来,一直从事木质纤维生物质三大组分清洁高效分离及转化为新材料、新能源及化学品方面的研究。发表JCR一区SCI收录论文565篇(其中中科院一区论文490篇,IF大于10的235篇),发表EI收录论文60余篇,论文被正面引用5.5万余次 (Google Scholar H-因子113, Web of Science 他引3.9万余次,H因子96),国际会议特邀、大会及主题报告60余次。主编Cereal Straw as a Resource for Sustainable Biomaterials and Biofuels: Chemistry, Extractives, Lignins, Hemicelluloses and Cellulose专著1部 (2010, Elsevier),同时还被国外专家邀请参与编写Hemicelluloses: Chemistry and Technology等英文专著36部和英国科学分离百科全书1部,授权发明专利154件。2014-2022年连续8年入选Elsevier中国高被引学者榜单及2018-2022年连续5年入选科睿唯安全球高被引科学家榜单,入选全球顶尖前10万科学家榜单(全球排名1904位,2022-01)。
主要学术研究方向
木质纤维生物质三大组分清洁高效分离及转化为新材料、新能源和化学品。
招收博士生所在一级学科
(1)轻工技术与工程;(2)生物质能源与材料。
招收硕士生所在一级学科
(1)轻工技术与工程;(2)生物质能源与材料。
培养学生和青年人才
培养研究生及博士后100余名,其中全国优秀博士论文获得者3人、提名2人,同时培养了一批国家级优秀青年人才。
科研奖励
系列研究成果分别获国家技术发明二等奖3项(排名1, 2,3),教育部自然科学一等奖3项(均排名1)、技术发明一等奖2项(排名1, 2)及科技进步一等奖1项(排名1),陕西省科技进步一等奖1项(排名1),中国轻工业联合会技术发明一等奖3项,中国产学研合作创新奖,第十一届光华工程科技奖获得者,2020年获美国化学会安塞姆·佩恩奖(“国际纤维素及可再生资源材料领域的最高奖”)。
学术兼职
曾任第六、七届国务院学位委员会轻工技术与工程学科评议组成员及第七届教育部科学技术委员会化学化工学部委员;英国皇家化学会Fellow;SCI期刊Industrial Crops and Products (中科院一区, IF 6.449)主编(Editor-in Chief),三种SCI期刊Carbohydrate Polymers (IF 10.7273),Frontiers In Energy Research 及Journal of Biobased Materials and Bioenergy 副主编,六种SCI期刊 ChemSusChem,Journal of Agricultural and Food Chemistry,International Journal of Cellulose Chemistry and Technology,Bioresources and Bioprocessing,Molecules, EcoMat 等编委。
承担科研项目
主持完成国家973计划项目,国家杰出青年科学基金及国家基金委6个重点项目及教育部重大项目等。
(1)木质素基材料制备及其去除水中重金属吸附性能研究,国家自然科学基金国际合作重点项目,2020-2023,300万元,在研,主持;
(2)国家自然科学基金项目重点项目,林木半纤维素与木质素复合物结构解析及高值化利用基础研究,2015/01-2019/12, 328万元,结题,主持;
(3)国家自然科学基金项目国际(地区)合作与交流重点项目, 农林废弃物木质素清洁分离、结构表征及功能材料制备基础研究, 2012/01-2016/12,280万元,结题,主持;
(4)国家重点基础研究发展计划973计划项目,生物质转化为高值化材料的基础科学问题,2010/01-2014/8,2800万元,结题,主持。
2022年发表论文目录
(1)Su TT, Ren WF, Wang K, Yuan JM, Shao CY, Ma JL, Chen XH, Xiao LP, Sun RC. Bifunctional hydrogen-bonding cross-linked polymeric binders for silicon anodes of lithium-ion batteries. Electrochimica Acta, 2022, 402: 139552.
(2)Su TT, Le JB, Ren WF, Zhang SJ, Yuan JM, Wang K, Shao CY, Li JT, Sun SG, Sun RC. Heteroatom-rich polymers as a protective film to control lithium growth for high-performance lithium-metal batteries. Journal of Power Sources, 2022, 521: 230949.
(3)Yuan JM, Ren WF, Wang K, Su TT, Jiao GJ, Shao CY, Xiao LP, Sun RC. Ultrahighly Elastic Lignin-Based Copolymers as an Effective Binder for Silicon Anodes of Lithium-Ion Batteries. ACS Sustainable Chemistry & Engineering, 2022, 10: 166-176.
(4)Du BY, Wang X, Chai LF, Wang XH, Pan Z, Chen XH, Zhou JH, Sun RC. Fabricating lignin-based carbon nanofibers as versatile supercapacitors from food wastes. International Journal of Biological Macromolecules, 2022, 194: 632-643.
(5)Jiao GJ, Ma JL, Zhang JQ, Zhou JH, Sun RC. High-efficiency capture and removal of phosphate from wastewater by 3D hierarchical functional biomass-derived carbon aerogel. Science of The Total Environment, 2022, 827: 154343.
(6)Yu J, Feng YF, Sun D, Ren WF, Shao CY, Sun RC. Highly conductive and mechanically robust cellulose nanocomposite hydrogels with antifreezing and antidehydration performances for flexible humidity sensors. ACS Applied Materials & Interfaces, 2022, 14(8): 10886-10897.
(7)Liu KN, Liu ZD, Yao SQ, Sun SL, Ma JL, Sun RC. CuInS2 quantum dots anchored onto the three-dimensional flexible self-supporting graphene oxide array with regulatable crystallinity and defect density for efficient photocatalytic synthesis of xylonic acid. Applied Catalysis B: Environmental, 2022, 121573.
(8)Liu ZD, Liu KN, Sun RC, Ma JL. Biorefinery-assisted ultra-high hydrogen evolution via metal-free black phosphorus sensitized carbon nitride photocatalysis. Chemical Engineering Journal, 2022, 446: 137128.
(9)Yang XP, Liu KN, Ma JL, Sun RC. Carbon quantum dots anchored on 1, 2, 3, 5-tetrakis (carbazole-9-yl)-4, 6-dicyanobenzene for efficient selective photo splitting of biomass-derived sugars into lactic acid. Green Chemistry, 2022, 24(15): 5894-5903.
(10)Feng YF, Yu J, Sun D, Dang C, Ren WF, Shao CY, Sun RC. Extreme environment-adaptable and fast self-healable eutectogel triboelectric nanogenerator for energy harvesting and self-powered sensing. Nano Energy, 2022, 98: 107284.
(11)Liu KN, Ma JL, Yang XP, Jin DN, Li YC, Jiao GJ, Yao SQ, Sun SL, Sun RC. Boosting electron kinetics of anatase TiO2 with carbon nanosheet for efficient photo-reforming of xylose into biomass-derived organic acids. Journal of Alloys and Compounds, 2022, 906: 164276.
(12)Liu KN, Ma JL, Yang XP, Liu ZD, Li XZ, Zhang JQ, Cui R, Sun RC. Phosphorus/oxygen co-doping in hollow-tube-shaped carbon nitride for efficient simultaneous visible-light-driven water splitting and biorefinery. Chemical Engineering Journal, 2022, 437: 135232.
(13)Sun D, Feng YF, Sun SC, Yu J, Jia SY, Dang C, Hao X, Yang J, Ren WF, Sun RC, Shao CY, Peng F. Transparent, self‐Adhesive, conductive organohydrogels with fast gelation from lignin‐based self‐catalytic system for extreme environment‐resistant triboelectric nanogenerators. Advanced Functional Materials, 2022, 2201335.
(14)Ma JL, Yang XP, Yao SQ, Guo YZ, Sun RC. Photocatalytic biorefinery to lactic Acid: a carbon nitride framework with O atoms replacing the graphitic N linkers shows fast migration/separation of charge. ChemCatChem, 2022, e202200097.
(15)Jiao GJ, Ma JL, Zhang JQ, Li YC, Liu KN, Sun RC. Porous and biofouling-resistant amidoxime-based hybrid hydrogel with excellent interfacial compatibility for high-performance recovery of uranium from seawater. Separation and Purification Technology, 2022, 287: 120571.
(16)Yang XP, Ma JL, Sun SL, Liu ZD, Sun RC. K/O co-doping and introduction of cyano groups in polymeric carbon nitride towards efficient simultaneous solar photocatalytic water splitting and biorefineries. Green Chemistry, 2022, 24(5): 2104-2113.
(17)Jin DN, Ma JL, Sun RC. Nitrogen-doped biochar nanosheets facilitate charge separation of a Bi/Bi2O3 nanosphere with a Mott–Schottky heterojunction for efficient photocatalytic reforming of biomass. Journal of Materials Chemistry C, 2022, 10(9), 3500-3509.
(18)Xiao WD, Xiao LP, Lv YH, Yin WZ, Sánchez J, Zhai SR, An QD, Sun RC. Lignin-derived carbon coated nanoscale zero-valent iron as a novel bifunctional material for efficient removal of Cr (VI) and organic pollutants. Separation and Purification Technology, 2022, 299: 121689.
(19)Du BY, Chai LF, Li W, Wang X, Chen XH, Zhou JH, Sun RC. Preparation of functionalized magnetic graphene oxide/lignin composite nanoparticles for adsorption of heavy metal ions and reuse as electromagnetic wave absorbers. Separation and Purification Technology, 2022, 297: 121509.
(20)Xiao WD, Xiao LP, Xiao WZ, Liu K, Zhang Y, Zhang HY, Sun RC. Cellulose-based bio-adsorbent from TEMPO-oxidized natural loofah for effective removal of Pb (II) and methylene blue. International Journal of Biological Macromolecules. 2022, 218: 285-294.
(21)Sun SC, Xu Y, Wen JL, Yuan TQ, Sun RC. Recent advances of lignin-based carbon fibers (LCFs): precursors, fabrications, properties, and applications. Green Chemistry, 2022, 24: 5709-5738.
(22)Yuan JM, Li H, Xiao LP, Wang TP, Ren WF, Lu Q, Sun RC. Valorization of lignin into phenolic compounds via fast pyrolysis: Impact of lignin structure. Fuel, 2022, 319: 123758.
(23)Xiao WD, Xiao LP, Xiao WZ, Wang Q, Zhai SR, Sun RC. The new identity of cellulose pulp: A green silver nanoparticles support for highly efficient catalytic hydrogenation of 4-nitrophenol. Journal of Cleaner Production, 2022, 355: 131833.
(24)Yan SS, Chai LF, Li W, Xiao LP, Chen XH, Sun RC. Tunning the properties of pH-responsive lignin-based hydrogels by regulating hydroxyl content. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 643: 128815.
(25)Xiao WZ, Xiao LP, Yang YQ, Zhai SR, Sun RC. Catalytic degradation of organic pollutants for water remediation over Ag nanoparticles immobilized on amine-functionalized metal-organic frameworks. Nano Research, 2022, 1-9.
(26)Xiao WZ, Xiao LP, Yang YQ, Xu Q, He WQ, Zhang J, Wang RY, Zhao X, Zhao SR, Sun RC. Fully exposed silver nanoparticles stabilized on pH-responsive lignin-reactors for enhanced 4-nitrophenol reduction. Journal of Environmental Chemical Engineering, 2022, 107945.
(27)Su TT, Ren WF, Yuan JM, Wang K, Chi BY, Sun RC. Fabrication of polyacrylic acid-based composite binders with strong binding forces on copper foils for silicon anodes in lithium-ion batteries. Journal of Industrial and Engineering Chemistry, 2022, 109: 521-529.
(28)Su TT, Wang K, Chi BY, Ren WF, Sun RC. Stripy zinc array with preferential crystal plane for the ultra‐long lifespan of zinc metal anodes for zinc ion batteries. EcoMat, 2022, e12219.
(29)Wang K, Le JB, Zhang SJ, Ren WF, Yuan JM, Su TT, Chi BY, Shao CY, Sun RC. A renewable biomass-based lignin film as an effective protective layer to stabilize zinc metal anodes for high-performance zinc–iodine batteries. Journal of Materials Chemistry A, 2022, 10: 4845-4857.
(30)Gao XJ, Zheng M, Yang XF, Sun RC, Zhang JJ, Sun XL. Emerging application of 3D-printing techniques in lithium batteries: From liquid to solid. Materials Today, 2022, 59: 161-181.
(31)Wang Q, Xiao LP, Lv YH, Yin WZ, Hou CJ, Sun RC. Metal−organic-framework-derived copper catalysts for the hydrogenolysis of lignin into monomeric phenols. ACS Catalyst, 2022, 12: 11899-11909.
(32)Li W, Chai LF, Du BY, Chen XH, Sun RC. Full-Lignin-Based Adsorbent for Removal of Cr(VI) from Waste Water. Separation and Purification Technology, 2023, 306: 122644.
(33)Yang YQ, Xiao LP, Xiao WZ, Li XY, Wang Q, Sun RC. Nitrogen-doped carbon anchored ruthenium nanoparticles for biofuel upgrade. Fuel, 2022, 314: 123100.
(34)Su TT, Le JB, Wang K, Liu KN, Shao CY, Ren WF, Sun RC. Tetraethyl orthosilicate steam induced silicon-based anticorrosion film enables highly reversible zinc metal anodes for zinc-iodine batteries. Journal of Power Sources, 2022, 550: 232136.
(35)Jiao GJ, Ma JL, Zhang JQ, Zhai SR, Sun RC. Efficient extraction of uranium from seawater by reticular polyamidoxime-functionalized oriented holocellulose bundles. Carbohydrate Polymers, 2023, 300: 120244.
(36)Ma JL, Zhang JQ, Jin DN, Yao SQ, Sun RC. LED white-light-driven photocatalysis for effective lignocellulose reforming to co-produce hydrogen and value-added chemicals via Zn2/O@IP-g-CN. Journal of Environmental Chemical Engineering, 2022, 10: 108554.
(37)Zhang JQ, Ma JL, Jiao GJ, Liu KN, Cui R, Zhai SR, Sun RC. Methyl 4-hydroxybenzoate nanospheres anchored on poly(amidoxime)/polyvinyl alcohol hydrogel network with excellent antibacterial activity for efficient uranium extraction from seawater. Desalination, 2023, 548: 116243.
(38)Cui R, Ma JL, Liu KN, Ali Zulfiqar, Zhang JQ, Liu ZD, Li XZ, Yao SQ, Sun RC. “Fish gill” -shaped ordered porous PVA@CNNS hybrid hydrogels with fast charge separation and low resistance for effectively photocatalytic synthesis of lactic acid from biomass-derived sugars. Molecular Catalysis, 2022, 531: 112653.
(39)Zhang JQ, Liu KN, Sun SL, Sun RC, Ma JL. Photo-splitting xylose and xylan to xylonic acid and carbon monoxide. Green Chemistry, 2022, 24: 8367-8376.
(40)Wang K, Su TT, Shao CY, Ren WF, Sun RC. Dynamically Responsive and Ionic Conductive Gel Coatings to Realize the Stable Circulation of Zinc Metal Anodes for Zinc-Ion Batteries. ACS Sustainable Chemistry and Engineer, 2022, DOI: 10.1021/acssuschemeng.2c04733.
(41)Li W, Chai LF, Du BY, Chen XH, Sun RC. Full-Lignin-Based adsorbent for removal of Cr(VI) from waste water. Separation and Purification Technology, 2023, 306: 122644.
(42)Chai LF, Du BY, Yan YY, Li W, Chen XH, Sun RC. Preparation of activated lignin with high hydroxyl content using lewis acid as demethylation reagent. International Journal of Biological Macromolecules, 2022, 222: 2571-2580.
(43)Gao XJ, Zheng M, Yang XF, Sun RC, Zhang JJ, Sun XL. Emerging application of 3D-printing techniques in lithium batteries: From liquid to solid. Materials Today, 2022, 59: 161-181.
