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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1946 1
1964 1
1970 2
1971 1
1972 1
1973 1
1975 5
1976 3
1977 2
1978 1
1979 1
1981 4
1982 3
1983 3
1984 4
1985 2
1986 8
1987 11
1988 16
1989 27
1990 30
1991 34
1992 35
1993 40
1994 34
1995 17
1996 39
1997 54
1998 37
1999 57
2000 85
2001 103
2002 116
2003 132
2004 187
2005 229
2006 213
2007 221
2008 224
2009 282
2010 323
2011 338
2012 309
2013 289
2014 347
2015 436
2016 472
2017 537
2018 642
2019 733
2020 695
2021 813
2022 768
2023 834
2024 350

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9,209 results

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Page 1
High CO-Tolerant Ru-Based Catalysts by Constructing an Oxide Blocking Layer.
Wang T, Li LY, Chen LN, Sheng T, Chen L, Wang YC, Zhang P, Hong YH, Ye J, Lin WF, Zhang Q, Zhang P, Fu G, Tian N, Sun SG, Zhou ZY. Wang T, et al. J Am Chem Soc. 2022 Jun 1;144(21):9292-9301. doi: 10.1021/jacs.2c00602. Epub 2022 May 20. J Am Chem Soc. 2022. PMID: 35593455
Here, we report a catalyst of Ru oxide-coated Ru supported on TiO(2) (Ru@RuO(2)/TiO(2)), which can tolerate 1-3% CO, enhanced by about 2 orders of magnitude over the classic PtRu/C catalyst, for hydrogen electrooxidation in a rotating disk electrode te …
Here, we report a catalyst of Ru oxide-coated Ru supported on TiO(2) (Ru@RuO(2)/TiO(2)), which can tolerate 1-3% CO
Ru-Doped Co(3)O(4) Nanoparticles as Efficient and Stable Electrocatalysts for the Chlorine Evolution Reaction.
Choi WI, Choi S, Balamurugan M, Park S, Cho KH, Seo H, Ha H, Nam KT. Choi WI, et al. ACS Omega. 2023 Sep 13;8(38):35034-35043. doi: 10.1021/acsomega.3c04525. eCollection 2023 Sep 26. ACS Omega. 2023. PMID: 37779938 Free PMC article.
Furthermore, Ru was successfully incorporated into the Co(3)O(4) NPs (Ru(x)Co(3-x)O(4) NPs) for further improvement of catalytic performance in chlorine generation. Electrokinetic analyses combined with in situ X-ray absorption near-edge structure (XAN …
Furthermore, Ru was successfully incorporated into the Co(3)O(4) NPs (Ru(x)Co(3-x)O(4) NPs) for further improvem …
Biaxially Compressive Strain in Ni/Ru Core/Shell Nanoplates Boosts Li-CO(2) Batteries.
Fan L, Shen H, Ji D, Xing Y, Tao L, Sun Q, Guo S. Fan L, et al. Adv Mater. 2022 Jul;34(30):e2204134. doi: 10.1002/adma.202204134. Epub 2022 Jun 16. Adv Mater. 2022. PMID: 35640098
Regulating surface strain of nanomaterials is an effective strategy to manipulate the activity of catalysts, yet not well recognized in rechargeable Li-CO(2) batteries. Herein, biaxially compressive strained nickel/ruthenium core/shell hexagonal nanoplates (Ni/Ru HN …
Regulating surface strain of nanomaterials is an effective strategy to manipulate the activity of catalysts, yet not well recognized in rech …
Versatile CO(2) Hydrogenation-Dehydrogenation Catalysis with a Ru-PNP/Ionic Liquid System.
Piccirilli L, Rabell B, Padilla R, Riisager A, Das S, Nielsen M. Piccirilli L, et al. J Am Chem Soc. 2023 Mar 15;145(10):5655-5663. doi: 10.1021/jacs.2c10399. Epub 2023 Mar 3. J Am Chem Soc. 2023. PMID: 36867088
The novel catalytic system relies on the synergic combination of Ru-PNP and IL and proceeds with CO(2) hydrogenation already at 25 C under a continuous flow of 1 bar of CO(2)/H(2) (1:5), leading to 14 mol % FA with respect to the IL. ...Finally, 13 hydrogenat …
The novel catalytic system relies on the synergic combination of Ru-PNP and IL and proceeds with CO(2) hydrogenation already a …
Bifunctional Ru-Cluster-Decorated Co(3) B-Co(OH)(2) Hybrid Catalyst Synergistically Promotes NaBH(4) Hydrolysis and Water Splitting.
Li H, Liu Z, Wang L, Guo M, Isimjan TT, Yang X. Li H, et al. Chemistry. 2023 Mar 1;29(13):e202203207. doi: 10.1002/chem.202203207. Epub 2023 Jan 26. Chemistry. 2023. PMID: 36469422
Developing a highly efficient bifunctional catalyst for hydrolysis of metal hydrides and spontaneous hydrogen evolution reaction (HER) is essential for substituting conventional fuels for H(2) production. Herein, Ru-cluster-modified Co(3) B-Co(OH)(2) supporte …
Developing a highly efficient bifunctional catalyst for hydrolysis of metal hydrides and spontaneous hydrogen evolution reaction (HER) is es …
High-Performance Li-CO(2) Battery Based on Carbon-Free Porous Ru@QNFs Cathode.
Zhu T, Wang S, Yu Z, Song H, Xu J, Chen K. Zhu T, et al. Small. 2023 Aug;19(33):e2301498. doi: 10.1002/smll.202301498. Epub 2023 Apr 24. Small. 2023. PMID: 37093201
However, due to the existance of lithium carbonate and amorphous carbon in the discharge products that are difficult to decompose, the battery shows low coulombic efficiency and poor cycle performance. Here, by adjusting the adsorption of carbon dioxide (CO(2) ) on rutheni …
However, due to the existance of lithium carbonate and amorphous carbon in the discharge products that are difficult to decompose, the batte …
Highly Dispersed Ru-Co Nanoparticles Interfaced With Nitrogen-Doped Carbon Polyhedron for High Efficiency Reversible Li-O(2) Battery.
Tong Z, Lv C, Zhou Y, Zhang PF, Xiang CC, Li ZG, Wang Z, Liu ZK, Li JT, Sun SG. Tong Z, et al. Small. 2022 Dec;18(48):e2204836. doi: 10.1002/smll.202204836. Epub 2022 Oct 17. Small. 2022. PMID: 36251775
However, slow oxygen reduction/oxygen evolution (ORR/OER) reaction efficiency and unstable cycling performance restrain the practical applications of the Li-O(2) battery. Herein, Ru-modified nitrogen-doped porous carbon-encapsulated Co nanoparticles (Ru/Co
However, slow oxygen reduction/oxygen evolution (ORR/OER) reaction efficiency and unstable cycling performance restrain the practical applic …
Interaction of CO with Pt nanoclusters on a graphene-covered Ru(0001) surface.
Esan DA, Trenary M. Esan DA, et al. J Chem Phys. 2021 Mar 21;154(11):114701. doi: 10.1063/5.0042686. J Chem Phys. 2021. PMID: 33752347
Previous work has demonstrated that Pt nanoclusters nucleate in the moire unit cells of the Gr/Ru(0001) surface. Exposure of the Pt/Gr/Ru(0001) surface to CO gives rise to strong RAIRS peaks at 2065-2085 cm(-1) assigned to CO at Pt atop sites and at 18 …
Previous work has demonstrated that Pt nanoclusters nucleate in the moire unit cells of the Gr/Ru(0001) surface. Exposure of the Pt/G …
Hydroxyl-Bonded Ru on Metallic TiN Surface Catalyzing CO(2) Reduction with H(2)O by Infrared Light.
Su B, Kong Y, Wang S, Zuo S, Lin W, Fang Y, Hou Y, Zhang G, Zhang H, Wang X. Su B, et al. J Am Chem Soc. 2023 Dec 20;145(50):27415-27423. doi: 10.1021/jacs.3c08311. Epub 2023 Dec 11. J Am Chem Soc. 2023. PMID: 38078702
Aberration-corrected high-angle annular dark-field scanning transmission electron microscopy (ac-HAADF-STEM) and X-ray absorption spectroscopy (XAS) confirm the atomic distribution of the Ru species. XAS and density functional theory (DFT) calculations unveil the formation …
Aberration-corrected high-angle annular dark-field scanning transmission electron microscopy (ac-HAADF-STEM) and X-ray absorption spectrosco …
Symmetry-Broken Ru Nanoparticles with Parasitic Ru-Co Dual-Single Atoms Overcome the Volmer Step of Alkaline Hydrogen Oxidation.
Mu XQ, Liu SL, Zhang MY, Zhuang ZC, Chen D, Liao YR, Zhao HY, Mu SC, Wang DS, Dai ZH. Mu XQ, et al. Angew Chem Int Ed Engl. 2024 Mar 18;63(12):e202319618. doi: 10.1002/anie.202319618. Epub 2024 Feb 13. Angew Chem Int Ed Engl. 2024. PMID: 38286759
In situ operando spectroscopy and theoretical calculations reveal that the oxygen-affine Co atom disrupts the symmetry of ultra-small Ru nanoparticles, resulting in parasitic Ru and Co dual-single-atom within Ru nanoparticles. ...As anticipated, …
In situ operando spectroscopy and theoretical calculations reveal that the oxygen-affine Co atom disrupts the symmetry of ultra-small …
9,209 results