中国科学院兰州化学物理研究所-凯发集团平台

研究队伍
姓名: 崔新江 性别:
学科类别: 资源化学 职务:
学历: 博士 职称: 研究员
电话: 0931-4968147 传真:
电子邮件: xinjiangcui@licp.cas.cn
通讯地址: 兰州市天水中路18号

简  历:

崔新江,博士,中国科学院兰州化学物理研究所研究员,低碳催化与二氧化碳利用重点实验室副主任,博士生导师。长期从事多相催化的工作研究,现在主要开展低碳催化与二氧化碳转化的相关研究。先后在德国、英国、瑞士从事博士后研究工作。承担国家自然科学基金项目,中国科学院人才项目、中国科学院战略先导a类专项,中国科学院稳定支持基础研究领域青年团队计划,甘肃省杰出青年基金项目,甘肃省科技重大专项以及企业合作项目等共10项,负责并参与千吨级产业中试多项。目前担任甘肃省化学会理事以及科学通报、物理化学学报、石油炼制与化工和green carbon刊编委/青年编委。发表sci论文80余篇,其中以第一或通讯作者在angew. chem. int. ed.5篇)、j. am. chem. soc.3篇)、nat. catal.1篇)、pnas1篇)、nat. commun.3篇)、sci. adv.1篇)等刊物上发表论文50余篇,全部论文被他引5000余次。

研究方向:

1.低碳分子催化转化

2.二氧化碳转化利用

3.反应过程的绿色化、低碳化

4.含氮、氧精细化学品的催化合成

获奖及荣誉:

国家高层次人才特殊支持计划-青年拔尖

中国科学院人才计划b类并择优支持

甘肃青年科技奖

甘肃省杰出青年基金

中国科学院院长奖

中国科学院朱李月华奖

甘肃省自然科学一等奖(排名3

承担科研项目:

代表论著:

1. zhao,k.;wang,h.;li,t.;liu,s.;benassi,e.;li,x.;yao,y.;wang,x.;cui,x.;shi,f.,identification of a potent palladium-aryldiphosphine catalytic system for high-performance carbonylation of alkenes. nature communications 2024,15: 1-11.

2. zhang,w.;sun,j.;wang,h.;cui,x.,recent advances in hydrogenation of co2 to co with heterogeneous catalysts through the rwgs reaction. chemistry-an asian journal 2024,19: 1-18.

3. zhang,l.;dai,x.;li,t.;liu,c.;wang,b.;li,g.;zhao,p.;cui,x.,pd single-atom decorated oms-2 nanorod for efficient silane oxidation. new journal of chemistry 2024,48: 9333-9339.

4. yu,x.;cui,x.;jing,h.;qian,b.;yuan,h.;shi,f.,recent development in synthesis of n-methylamines with amines and methanol. chemcatchem 2024,1-20.

5. wang,p.;liu,s.;cui,x.;wu,y.;shi,f.,indirect use of co2  synthesis of n-substituted dicarbamates via polyurea intermediates over a zn-based metal azolate framework. catalysis science & technology 2024,14: 2286-2293.

6. wang,p.;liu,s.;cui,x.;wu,y.;shi,f.,effective synthesis of diethyl carbonate over mg-y composite oxides via alcoholysis of ethyl carbamate. new journal of chemistry 2024,48: 7489-7496.

7. zhang,l.;li,t.;dai,x.;zhao,j.;liu,c.;he,d.;zhao,k.;zhao,p.;cui,x.,water activation triggered by cu-co double-atom catalyst for silane oxidation. angewandte chemie-international edition 2023,62: 1-8.

8. yuan,h.;huang,y.;wang,b.;sun,y.;yang,d.;cui,x.;shi,f.,acceptorless dehydrogenation of ethanol to acetaldehyde using highly active cu catalyst. journal of molecular catalysis(china) 2023,37: 1-11.

9. yu,x.;li,g.;tao,s.;wang,b.;liu,c.;jing,h.;shi,f.;cui,x.,single-atom fe catalyst for catalytic ethane dehydrogenation to ethylene. chemcatchem 2023,15: 1-6.

10. yang,d.;wang,b.;cui,x.;chang,c.,research progress on catalytic system using methanol as methylating reagent. acta petrolei sinica. petroleum processing section 2023,39: 1442-1452.

11. wang,x.;wang,h.;zhao,k.;yuan,h.;shi,f.;cui,x.,active pd catalyst for the selective synthesis of methylated amines with methanol. journal of organic chemistry 2023,88: 5025-5035.

12. wang,x.;li,t.;wang,h.;zhao,k.;huang,y.;yuan,h.;cui,x.;shi,f.,identifying active sites at the cu/ce interface for hydrogen borrowing reactions. journal of catalysis 2023,418: 163-177.

13. ma,h.;liu,s.;wang,h.;li,g.;zhao,k.;cui,x.;shi,f.,in situ co2 capture and transformation into cyclic carbonates using flue gas. green chemistry 2023,25: 2293-2298.

14. liu,s.;li,t.;shi,f.;ma,h.;wang,b.;dai,x.;cui,x.,constructing multiple active sites in iron oxide catalysts for improving carbonylation reactions. nature communications 2023,14: 4973-4986.

15. he,d.;li,t.;liu,s.;qiu,b.;cui,x.;shi,f.,n-ligand regulated heterogenous copper catalyst for selective hydrogenation of cinnamaldehyde. journal of molecular catalysis(china) 2023,37: 213-224.

16. he,d.;li,t.;dai,x.;liu,s.;cui,x.;shi,f.,construction of highly active and selective molecular imprinting catalyst for hydrogenation. journal of the american chemical society 2023,145: 20813-20824.

17. dai,x.;li,t.;wang,b.;kreyenschulte,c.;bartling,s.;liu,s.;he,d.;yuan,h.;brueckner,a.;shi,f.;rabeah,j.;cui,x.,tailoring active cu2o/copper interface sites for n-formylation of aliphatic primary amines with co2/h2. angewandte chemie-international edition 2023,62: 1-8.

18. zhao,k.;wang,h.;wang,x.;cui,x.;shi,f.,a biphosphine copolymer encapsulated single-site rh catalyst for heterogeneous regioselective hydroaminomethylation of alkenes. chemical communications 2022,58: 8093-8096.

19. liu,c.;li,t.;dai,x.;zhao,j.;he,d.;li,g.;wang,b.;cui,x.,catalytic activity enhancement on alcohol dehydrogenation viadirecting reaction pathways from single- to double-atom catalysis. journal of the american chemical society 2022,144: 4913-4924.

20. huang,x.;ma,h.;liu,s.;wang,b.;wang,h.;qian,b.;cui,x.;shi,f.,recent advances on indirect conversion of carbon dioxide to chemicals. chemical journal of chinese universities-chinese 2022,43: 1-12.

21. zhao,k.;wang,h.;wang,x.;li,t.;dai,x.;zhang,l.;cui,x.;shi,f.,confinement of atomically dispersed rh catalysts within porous monophosphine polymers for regioselective hydroformylation of alkenes. journal of catalysis 2021,401: 321-330.

22. wang,t.;li,g.;cui,x.;abild-pedersen,f.,identification of earth-abundant materials for selective dehydrogenation of light alkanes to olefins. proceedings of the national academy of sciences of the united states of america 2021,118: 1-7.

23. wang,t.;cui,x.;winther,k. t.;abild-pedersen,f.;bligaard,t.;norskov,j. k.,theory-aided discovery of metallic catalysts for selective propane dehydrogenation to propylene. acs catalysis 2021,11: 6290-6297.

24. li,g.;liu,c.;cui,x.;yang,y.;shi,f.,oxidative dehydrogenation of tight alkanes with carbon dioxide. green chemistry 2021,23: 689-707.

25. huang,y.;wang,b.;yuan,h.;sun,y.;yang,d.;cui,x.;shi,f.,the catalytic dehydrogenation of ethanol by heterogeneous catalysts. catalysis science & technology 2021,11: 1652-1664.

26. de almeida,l. d.;wang,h.;junge,k.;cui,x.;beller,m.,recent advances in catalytic hydrosilylations: developments beyond traditional platinumcatalysts. angewandte chemie-international edition 2021,60: 550-565.

27. cui,x.;shi,f.,selective conversion of co2 by single-site catalysts. acta physico-chimica sinica 2021,37: 1-25.

28. chen,l.;van muyden,a. p.;cui,x.;fei,z.;yan,n.;laurenczy,g.;dyson,p. j.,lignin first: confirming the role of the metal catalyst in reductive fractionation. jacs au 2021,1: 729-733.

29. wang,h.;huang,y.;wang,x.;cui,x.;shi,f.,supported ni nanoparticles with a phosphine ligand as an efficient heterogeneous non-noble metal catalytic system for regioselective hydrosilylation of alkynes. organic & biomolecular chemistry 2020,18: 7554-7558.

30. cui,x.;li,w.;junge,k.;fei,z.;beller,m.;dyson,p. j.,selective acceptorless dehydrogenation of primary amines to imines by core-shell cobalt nanoparticles. angewandte chemie-international edition 2020,59: 7501-7507.

31. cui,x.;huang,z.;van muyden,a. p.;fei,z.;wang,t.;dyson,p. j.,acceptorless dehydrogenation and hydrogenation of n- and o-containing compounds on pd3au1 (111) facets. science advances 2020,6: 1-10.

32. liu,s.;van muyden,a. p.;bai,l.;cui,x.;fei,z.;li,x.;hu,x.;dyson,p. j.,metal-sulfide catalysts derived from lignosulfonate and their efficient use in hydrogenolysis. chemsuschem 2019,12: 3271-3277.

33. liu,s.;bai,l.;van muyden,a. p.;huang,z.;cui,x.;fei,z.;li,x.;hu,x.;dyson,p. j.,oxidative cleavage of -o-4 bonds in lignin model compounds with a single-atom co catalyst. green chemistry 2019,21: 1974-1981.

34. li,w.;cui,x.;junge,k.;surkus,a.-e.;kreyenschulte,c.;bartling,s.;beller,m.,general and chemoselective copper oxide catalysts for hydrogenation reactions. acs catalysis 2019,9: 4302-4307.

35. cui,x.;li,w.;ryabchuk,p.;junge,k.;beller,m.,bridging homogeneous and heterogeneous catalysis by heterogeneous single-metal-site catalysts. nature catalysis 2019,2: 385-397.

36. cui,x.;dai,x.;surkus,a.-e.;junge,k.;kreyenschulte,c.;agostini,g.;rockstroh,n.;beller,m.,zinc single atoms on n-doped carbon: an efficient and stable catalyst for co2  fixation and conversion. chinese journal of catalysis 2019,40: 1679-1685.

申请/授权专利:

1. 崔新江,刘策,李腾,王斌,赵坚, 一种氮掺杂碳担载铁钴复合材料及其制备方法和应用,中国发明专利,专利号:zl 202111612906.5

2. 崔新江,袁航空,石峰,王斌,黄永吉,陈旭亮,一种金属基泡沫负载型材料及其制备方法和应用,中国发明专利,申请号:cn 116262225a

3. 崔新江,刘策,李腾,李国民,镍钼合金复合材料及其制备方法和应用、二氧化碳氧化低碳烷烃脱氢制低碳烯烃的方法,中国发明专利,申请号:cn 116510739a

4. 崔新江,石峰,袁航空,王红利,赵祥涛,一种改性高分子树脂复合材料及其制备方法和应用、环状碳酸酯的制备方法,中国发明专利,专利号:zl 202210516212.x

5. 崔新江,石峰,袁航空,王红利,赵祥涛,一种改性高分子树脂复合材料及其制备方法和应用、环状碳酸酯的制备方法,中国发明专利,专利号:zl 202210516212.x

6. 景旭亮,崔新江,杨东元,袁航空,孙育滨,石峰,任虎彪,赵祥涛,李鸿雄,一种乙醇制乙醛产品的分离系统及方法,中国发明专利,专利号:zl 202210537169.5

7. 石峰,崔新江,柳淑娟,何东城,程永兴,马海英,一种碳材料及其制备方法和应用,中国发明专利,专利号:zl 202211367710.9

8. 袁航空,石峰,崔新江,王红利,赵祥涛,中国发明专利,一种刚性载体负载的高分子材料及其制备方法和应用,专利号:zl 202210593616.9

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