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Items: 1 to 20 of 105

1.

Atomically dispersed Fe3+ sites catalyze efficient CO2 electroreduction to CO.

Gu J, Hsu CS, Bai L, Chen HM, Hu X.

Science. 2019 Jun 14;364(6445):1091-1094. doi: 10.1126/science.aaw7515.

PMID:
31197014
2.

Regulation of Coordination Number over Single Co Sites: Triggering the Efficient Electroreduction of CO2.

Wang X, Chen Z, Zhao X, Yao T, Chen W, You R, Zhao C, Wu G, Wang J, Huang W, Yang J, Hong X, Wei S, Wu Y, Li Y.

Angew Chem Int Ed Engl. 2018 Feb 12;57(7):1944-1948. doi: 10.1002/anie.201712451. Epub 2018 Jan 16.

PMID:
29266615
3.

Single-Atom Catalysis toward Efficient CO2 Conversion to CO and Formate Products.

Su X, Yang XF, Huang Y, Liu B, Zhang T.

Acc Chem Res. 2019 Mar 19;52(3):656-664. doi: 10.1021/acs.accounts.8b00478. Epub 2018 Dec 4.

PMID:
30512920
4.

Metal-Doped Nitrogenated Carbon as an Efficient Catalyst for Direct CO2 Electroreduction to CO and Hydrocarbons.

Varela AS, Ranjbar Sahraie N, Steinberg J, Ju W, Oh HS, Strasser P.

Angew Chem Int Ed Engl. 2015 Sep 7;54(37):10758-62. doi: 10.1002/anie.201502099. Epub 2015 Jul 29.

PMID:
26227677
5.

Carbon-supported Ni nanoparticles for efficient CO2 electroreduction.

Jia M, Choi C, Wu TS, Ma C, Kang P, Tao H, Fan Q, Hong S, Liu S, Soo YL, Jung Y, Qiu J, Sun Z.

Chem Sci. 2018 Nov 6;9(47):8775-8780. doi: 10.1039/c8sc03732a. eCollection 2018 Dec 21.

6.

Partially oxidized atomic cobalt layers for carbon dioxide electroreduction to liquid fuel.

Gao S, Lin Y, Jiao X, Sun Y, Luo Q, Zhang W, Li D, Yang J, Xie Y.

Nature. 2016 Jan 7;529(7584):68-71. doi: 10.1038/nature16455.

PMID:
26738592
7.

Enhanced Carbon Dioxide Electroreduction to Carbon Monoxide over Defect-Rich Plasma-Activated Silver Catalysts.

Mistry H, Choi YW, Bagger A, Scholten F, Bonifacio CS, Sinev I, Divins NJ, Zegkinoglou I, Jeon HS, Kisslinger K, Stach EA, Yang JC, Rossmeisl J, Roldan Cuenya B.

Angew Chem Int Ed Engl. 2017 Sep 11;56(38):11394-11398. doi: 10.1002/anie.201704613. Epub 2017 Aug 10.

PMID:
28710839
8.

Atomically Dispersed Iron-Nitrogen Species as Electrocatalysts for Bifunctional Oxygen Evolution and Reduction Reactions.

Chen P, Zhou T, Xing L, Xu K, Tong Y, Xie H, Zhang L, Yan W, Chu W, Wu C, Xie Y.

Angew Chem Int Ed Engl. 2017 Jan 9;56(2):610-614. doi: 10.1002/anie.201610119. Epub 2016 Dec 2.

PMID:
27910196
9.

CO2 electroreduction performance of a single transition metal atom supported on porphyrin-like graphene: a computational study.

Wang Z, Zhao J, Cai Q.

Phys Chem Chem Phys. 2017 Aug 30;19(34):23113-23121. doi: 10.1039/c7cp04299j.

PMID:
28820201
10.

Identification of catalytic sites in cobalt-nitrogen-carbon materials for the oxygen reduction reaction.

Zitolo A, Ranjbar-Sahraie N, Mineva T, Li J, Jia Q, Stamatin S, Harrington GF, Lyth SM, Krtil P, Mukerjee S, Fonda E, Jaouen F.

Nat Commun. 2017 Oct 16;8(1):957. doi: 10.1038/s41467-017-01100-7.

11.

Nanostructured transition metal dichalcogenide electrocatalysts for CO2 reduction in ionic liquid.

Asadi M, Kim K, Liu C, Addepalli AV, Abbasi P, Yasaei P, Phillips P, Behranginia A, Cerrato JM, Haasch R, Zapol P, Kumar B, Klie RF, Abiade J, Curtiss LA, Salehi-Khojin A.

Science. 2016 Jul 29;353(6298):467-70. doi: 10.1126/science.aaf4767.

12.

Zinc-Coordinated Nitrogen-Codoped Graphene as an Efficient Catalyst for Selective Electrochemical Reduction of CO2 to CO.

Chen Z, Mou K, Yao S, Liu L.

ChemSusChem. 2018 Sep 11;11(17):2944-2952. doi: 10.1002/cssc.201800925. Epub 2018 Jul 26.

PMID:
29956488
13.

MOF-derived nitrogen-doped nanoporous carbon for electroreduction of CO2 to CO: the calcining temperature effect and the mechanism.

Zheng Y, Cheng P, Xu J, Han J, Wang D, Hao C, Alanagh HR, Long C, Shi X, Tang Z.

Nanoscale. 2019 Mar 14;11(11):4911-4917. doi: 10.1039/c8nr10236h.

PMID:
30830129
14.

Efficient and Robust Carbon Dioxide Electroreduction Enabled by Atomically Dispersed Snδ + Sites.

Zu X, Li X, Liu W, Sun Y, Xu J, Yao T, Yan W, Gao S, Wang C, Wei S, Xie Y.

Adv Mater. 2019 Apr;31(15):e1808135. doi: 10.1002/adma.201808135. Epub 2019 Feb 21.

PMID:
30790366
15.

Understanding activity and selectivity of metal-nitrogen-doped carbon catalysts for electrochemical reduction of CO2.

Ju W, Bagger A, Hao GP, Varela AS, Sinev I, Bon V, Roldan Cuenya B, Kaskel S, Rossmeisl J, Strasser P.

Nat Commun. 2017 Oct 16;8(1):944. doi: 10.1038/s41467-017-01035-z.

16.

Structure of Active Sites of Fe-N-C Nano-Catalysts for Alkaline Exchange Membrane Fuel Cells.

Kishi H, Sakamoto T, Asazawa K, Yamaguchi S, Kato T, Zulevi B, Serov A, Artyushkova K, Atanassov P, Matsumura D, Tamura K, Nishihata Y, Tanaka H.

Nanomaterials (Basel). 2018 Nov 22;8(12). pii: E965. doi: 10.3390/nano8120965.

17.

Porous Carbon-Hosted Atomically Dispersed Iron-Nitrogen Moiety as Enhanced Electrocatalysts for Oxygen Reduction Reaction in a Wide Range of pH.

Fu S, Zhu C, Su D, Song J, Yao S, Feng S, Engelhard MH, Du D, Lin Y.

Small. 2018 Mar;14(12):e1703118. doi: 10.1002/smll.201703118. Epub 2018 Feb 12.

PMID:
29430838
18.

Sugar Blowing-Induced Porous Cobalt Phosphide/Nitrogen-Doped Carbon Nanostructures with Enhanced Electrochemical Oxidation Performance toward Water and Other Small Molecules.

Zhu C, Fu S, Xu BZ, Song J, Shi Q, Engelhard MH, Li X, Beckman SP, Sun J, Du D, Lin Y.

Small. 2017 Sep;13(33). doi: 10.1002/smll.201700796. Epub 2017 Jun 28.

PMID:
28656598
19.

Highly active and stable hybrid catalyst of cobalt-doped FeS2 nanosheets-carbon nanotubes for hydrogen evolution reaction.

Wang DY, Gong M, Chou HL, Pan CJ, Chen HA, Wu Y, Lin MC, Guan M, Yang J, Chen CW, Wang YL, Hwang BJ, Chen CC, Dai H.

J Am Chem Soc. 2015 Feb 4;137(4):1587-92. doi: 10.1021/ja511572q. Epub 2015 Jan 27.

PMID:
25588180
20.

Atomically Dispersed Molybdenum Catalysts for Efficient Ambient Nitrogen Fixation.

Han L, Liu X, Chen J, Lin R, Liu H, Lü F, Bak S, Liang Z, Zhao S, Stavitski E, Luo J, Adzic RR, Xin HL.

Angew Chem Int Ed Engl. 2019 Feb 18;58(8):2321-2325. doi: 10.1002/anie.201811728. Epub 2019 Jan 18.

PMID:
30548557

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