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崔新江，博士，中國科學(xué)院蘭州化學(xué)物理研究所研究員，低碳催化與二氧化碳利用重點(diǎn)實(shí)驗(yàn)室副主任，博士生導(dǎo)師。長期從事多相催化的工作研究，現(xiàn)在主要開展低碳催化與二氧化碳轉(zhuǎn)化的相關(guān)研究。先后在德國、英國、瑞士從事博士后研究工作。承擔(dān)國家自然科學(xué)基金項(xiàng)目，中國科學(xué)院人才項(xiàng)目、中國科學(xué)院戰(zhàn)略先導(dǎo)A類專項(xiàng)，中國科學(xué)院穩(wěn)定支持基礎(chǔ)研究領(lǐng)域青年團(tuán)隊(duì)計(jì)劃，甘肅省杰出青年基金項(xiàng)目，甘肅省科技重大專項(xiàng)以及企業(yè)合作項(xiàng)目等共10項(xiàng)，負(fù)責(zé)并參與千噸級(jí)產(chǎn)業(yè)中試多項(xiàng)。目前擔(dān)任甘肅省化學(xué)會(huì)理事以及科學(xué)通報(bào)、物理化學(xué)學(xué)報(bào)、石油煉制與化工和Green Carbon期刊編委/青年編委。發(fā)表SCI論文80余篇，其中以第一或通訊作者在Angew. Chem. Int. Ed.（5篇）、J. Am. Chem. Soc.（3篇）、Nat. Catal.（1篇）、PNAS（1篇）、Nat. Commun.（3篇）、Sci. Adv.（1篇）等刊物上發(fā)表論文50余篇，全部論文被他引5000余次。

1.低碳分子催化轉(zhuǎn)化

2.二氧化碳轉(zhuǎn)化利用

3.反應(yīng)過程的綠色化、低碳化

4.含氮、氧精細(xì)化學(xué)品的催化合成

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.

申請(qǐng)/授權(quán)專利：

1.?崔新江，劉策，李騰，王斌，趙堅(jiān)， 一種氮摻雜碳擔(dān)載鐵鈷復(fù)合材料及其制備方法和應(yīng)用，中國發(fā)明專利，專利號(hào)：ZL?202111612906.5

2.?崔新江，袁航空，石峰，王斌，黃永吉，陳旭亮，一種金屬基泡沫負(fù)載型材料及其制備方法和應(yīng)用，中國發(fā)明專利，申請(qǐng)?zhí)枺?span style="box-sizing: border-box;margin: 0px;padding: 0px;font-family: 'times new roman'">CN?116262225A

3.?崔新江，劉策，李騰，李國民，鎳鉬合金復(fù)合材料及其制備方法和應(yīng)用、二氧化碳氧化低碳烷烴脫氫制低碳烯烴的方法，中國發(fā)明專利，申請(qǐng)?zhí)枺?span style="box-sizing: border-box;margin: 0px;padding: 0px;font-family: 'times new roman'">CN?116510739A

4.?崔新江，石峰，袁航空，王紅利，趙祥濤，一種改性高分子樹脂復(fù)合材料及其制備方法和應(yīng)用、環(huán)狀碳酸酯的制備方法，中國發(fā)明專利，專利號(hào)：ZL?202210516212.X

5.?崔新江，石峰，袁航空，王紅利，趙祥濤，一種改性高分子樹脂復(fù)合材料及其制備方法和應(yīng)用、環(huán)狀碳酸酯的制備方法，中國發(fā)明專利，專利號(hào)：ZL?202210516212.X

6.?景旭亮，崔新江，楊東元，袁航空，孫育濱，石峰，任虎彪，趙祥濤，李鴻雄，一種乙醇制乙醛產(chǎn)品的分離系統(tǒng)及方法，中國發(fā)明專利，專利號(hào)：ZL?202210537169.5

7.?石峰，崔新江，柳淑娟，何東城，程永興，馬海英，一種碳材料及其制備方法和應(yīng)用，中國發(fā)明專利，專利號(hào)：ZL?202211367710.9

8.?袁航空，石峰，崔新江，王紅利，趙祥濤，中國發(fā)明專利，一種剛性載體負(fù)載的高分子材料及其制備方法和應(yīng)用，專利號(hào)：ZL?202210593616.9