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

Year Number of Results
1981 1
1982 1
1984 1
1987 2
1988 2
1989 5
1990 3
1991 4
1992 4
1993 10
1994 9
1995 8
1996 9
1997 8
1998 15
1999 14
2000 21
2001 29
2002 36
2003 40
2004 30
2005 48
2006 59
2007 61
2008 89
2009 125
2010 148
2011 146
2012 169
2013 242
2014 410
2015 500
2016 513
2017 577
2018 703
2019 840
2020 971
2021 964
2022 1084
2023 1230
2024 530

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8,580 results

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Page 1
Age-Induced Accumulation of Succinate Promotes Cardiac Fibrogenesis.
Wang Z, Yang S, Ping Z, Li Y, Jiang T, Zheng X, Zhang Z, Wang G, Liu Z, Sun H, Zhang Q, Zhang H, Gao Y, Feng Y, Liu X, Han L, Lin S, Zhang X, Song M, Liu T, Tang M, Liu C, Xie H, Ruan G, Yang M, Chen Y, Yuan X, Wang D, Zhang X, Wang C, Jiang Z, Xu Y, Chen L, Deng L, Wu B, Zhou D, Cao X, Shi H, Sun T. Wang Z, et al. Circ Res. 2023 Dec 19;0(1):1-23. doi: 10.1161/CIRCRESAHA.123.323651. Epub 2023 Dec 19. Circ Res. 2023. PMID: 38112098 Free article. Retracted. No abstract available.
Retraction.
[No authors listed] [No authors listed] Cancer Sci. 2018 Feb;109(2):483. doi: 10.1111/cas.13490. Epub 2018 Jan 9. Cancer Sci. 2018. PMID: 29399985 Free PMC article.
'EphB3-targeted regulation of miR-149 in the migration and invasion of human colonic carcinoma HCT116 and SW620 cells' by Guodong Zhang, Xiaozhu Liu, Yinfeng Li, Yan Wang, Huankun Liang, Kangyan Li, Laiqing Li, Cuicui Chen, Wenqiao Sun, Shoulei Ren, Pengfei Zhu and Licheng …
'EphB3-targeted regulation of miR-149 in the migration and invasion of human colonic carcinoma HCT116 and SW620 cells' by Guodong Zhang
Retraction.
[No authors listed] [No authors listed] J Pineal Res. 2019 Nov;67(4):e12612. doi: 10.1111/jpi.12612. Epub 2019 Oct 18. J Pineal Res. 2019. PMID: 31657077
Fan, C., Pan, Y., Yang, Y., Di, S., Jiang, S., Ma, Z., Li, T., Zhang, Z., Li, W., Li, X., Reiter, R. ...
Fan, C., Pan, Y., Yang, Y., Di, S., Jiang, S., Ma, Z., Li, T., Zhang, Z., Li, W., Li, X., Reiter, R. ...
Erratum for the Report "Global distribution of earthworm diversity" by H. R. P. Phillips, C. A. Guerra, M. L. C. Bartz, M. J. I. Briones, G. Brown, T. W. Crowther, O. Ferlian, K. B. Gongalsky, J. van den Hoogen, J. Krebs, A. Orgiazzi, D. Routh, B. Schwarz, E. M. Bach, J. Bennett, U. Brose, T. Decaens, B. Konig-Ries, M. Loreau, J. Mathieu, C. Mulder, W. H. van der Putten, K. S. Ramirez, M. C. Rillig, D. Russell, M. Rutgers, M. P. Thakur, F. T. de Vries, D. H. Wall, D. A. Wardle, M. Arai, F. O. Ayuke, G. H. Baker, R. Beausejour, J. C. Bedano, K. Birkhofer, E. Blanchart, B. Blossey, T. Bolger, R. L. Bradley, M. A. Callaham, Y. Capowiez, M. E. Caulfield, A. Choi, F. V. Crotty, A. Davalos, D. J. Diaz Cosin, A. Dominguez, A. E. Duhour, N. van Eekeren, C. Emmerling, L. B. Falco, R. Fernandez, S. J. Fonte, C. Fragoso, A. L. C. Franco, M. Fugere, A. T. Fusilero, S. Gholami, M. J. Gundale, M. Gutierrez Lopez, D. K. Hackenberger, L. M. Hernandez, T. Hishi, A. R. Holdsworth, M. Holmstrup, K. N. Hopfensperger, E. Huerta Lwanga, V. Huhta, T. T. Hurisso, B. V. Iannone III, M. Iordache, M. Joschko, N. Kaneko, R. Kanianska, A. M. Keith, C. A. Kelly, M. L. Kernecker, J. Klaminder, A. W. Kone, Y. Kooch, S. T. Kukkonen, H. Lalthanzara, D. R. Lammel, I. M. Lebedev, Y. Li, J. B. Jesus Lidon, N. K. Lincoln, S. R. Loss, R. Marichal, R. Matula, J. H. Moos, G. Moreno, A. Moron-Rios, B. Muys, J. Neirynck, L. Norgrove, M. Novo, V. Nuutinen, V. Nuzzo, M. Rahman P, J. Pansu, S. Paudel, G. Peres, L. Perez-Camacho, R. Pineiro, J.-F. Ponge, M. I. Rashid, S. Rebollo, J. Rodeiro-Iglesias, M. A. Rodriguez, A. M. Roth, G. X. Rousseau, A. Rozen, E. Sayad, L. van Schaik, B. C. Scharenbroch, M. Schirrmann, O. Schmidt, B. Schroder, J. Seeber, M. P. Shashkov, J. Singh, S. M. Smith, M. Steinwandter, J. A. Talavera, D. Trigo, J. Tsukamoto, A. W. de Valenca, S. J. Vanek, I. Virto, A. A. Wackett, M. W. Warren, N. H. Wehr, J. K. Whalen, M. B. Wironen, V. Wolters, I. V. Zenkova, W. Zhang, E. K. Cameron, N. Eisenhauer.
[No authors listed] [No authors listed] Science. 2020 Jul 31;369(6503):eabd9834. doi: 10.1126/science.abd9834. Science. 2020. PMID: 32732396 No abstract available.
Effect of W Addition on Fe-P-C-B Soft-Magnetic Amorphous Alloy.
Sun C, Xu H, Meng Y, Wang X, Han M, Qiao B, Wang Y, Zhang T. Sun C, et al. Materials (Basel). 2022 Nov 25;15(23):8416. doi: 10.3390/ma15238416. Materials (Basel). 2022. PMID: 36499911 Free PMC article.
In this work, the thermal behavior, soft magnetic properties, and structure of Fe(86-x)P(11)C(2)B(1)W(x) (x = 0, 0.1, 0.2, 0.4, 0.6, 0.8, 1, 2, and 4) amorphous alloys were researched by several experimental methods and ab initio molecular dynamics. ...The Fe(85.6)P …
In this work, the thermal behavior, soft magnetic properties, and structure of Fe(86-x)P(11)C(2)B(1)W(x) (x = 0, 0.1, 0.2, 0.4 …
Erratum for the Research Article: "Integrated molecular analysis of tumor biopsies on sequential CTLA-4 and PD-1 blockade reveals markers of response and resistance" by W. Roh, P.-L. Chen, A. Reuben, C. N. Spencer, P. A. Prieto, J. P. Miller, V. Gopalakrishnan, F. Wang, Z. A. Cooper, S. M. Reddy, C. Gumbs, L. Little, Q. Chang, W.-S.Chen, K. Wani, M. P. De Macedo, E. Chen, J. L. Austin-Breneman, H. Jiang, J. Roszik, M. T. Tetzlaff, M. A. Davies, J. E. Gershenwald, H. Tawbi, A. J. Lazar, P. Hwu, W.-J. Hwu, A. Diab, I. C. Glitza, S. P. Patel, S. E. Woodman, R. N. Amaria, V. G. Prieto, J. Hu, P. Sharma, J. P. Allison, L. Chin, J. Zhang, J. A. Wargo, P. A. Futreal.
[No authors listed] [No authors listed] Sci Transl Med. 2017 Apr 12;9(385):eaan3788. doi: 10.1126/scitranslmed.aan3788. Sci Transl Med. 2017. PMID: 28404861 No abstract available.
Interfacial Thermal Conductance between Cu and Diamond with Interconnected W-W(2)C Interlayer.
Zhang Y, Wang Z, Li N, Che Z, Liu X, Chang G, Hao J, Dai J, Wang X, Sun F, Zhang H. Zhang Y, et al. ACS Appl Mater Interfaces. 2022 Aug 3;14(30):35215-35228. doi: 10.1021/acsami.2c07190. Epub 2022 Jul 25. ACS Appl Mater Interfaces. 2022. PMID: 35878880
In this study, we designed three kinds of interlayers between a Cu film and a diamond substrate by magnetron sputtering coupled with heat treatment, including a W interlayer, an interconnected W-W(2)C interlayer, and a W(2)C interlayer, t …
In this study, we designed three kinds of interlayers between a Cu film and a diamond substrate by magnetron sputtering coupled with heat tr …
Hydrogenation induced high-temperature superconductivity in two-dimensional W(2)C(3).
Wang H, Yin XZ, Liu Y, Li YP, Ni MY, Jiao N, Lu HY, Zhang P. Wang H, et al. Phys Chem Chem Phys. 2023 Aug 23;25(33):22171-22178. doi: 10.1039/d3cp02316h. Phys Chem Chem Phys. 2023. PMID: 37565262
After hydrogenation, W(2)C(3)H(2) possesses the intrinsic metallic properties with a large density of states (DOS) at the Fermi energy (E(F)). ...Then, the T(c) of W(2)C(3)H(2) can be increased from 40.5 K to 49.1 K with -4% compressive strain. …
After hydrogenation, W(2)C(3)H(2) possesses the intrinsic metallic properties with a large density of states (DOS) at the Ferm …
Mott-Schottky Effect in Core-Shell W@W(x) C Heterostructure: Boosting Both Electronic/Ionic Kinetics for Lithium Storage.
Yang Y, Sun B, Gao Y, Zhu H, Chen Y, Li X, Zhang Q. Yang Y, et al. Small. 2023 Sep;19(36):e2300955. doi: 10.1002/smll.202300955. Epub 2023 May 11. Small. 2023. PMID: 37169716
The W nanoparticles are partially reduced into W(x) C to form a particular core-shell structure with abundant heterogeneous interfaces. ...In addition, the independent nanoparticle as well as the unique core-shell structure facilitate the ionic diffusion kine …
The W nanoparticles are partially reduced into W(x) C to form a particular core-shell structure with abundant heterogen …
8,580 results