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

Year Number of Results
1867 2
1873 1
1875 1
1884 1
1894 1
1897 1
1899 1
1901 1
1902 1
1903 2
1906 2
1907 3
1908 2
1909 2
1910 2
1911 1
1912 5
1913 3
1915 2
1916 4
1917 3
1918 2
1919 9
1920 12
1921 9
1922 11
1923 15
1924 9
1925 10
1926 8
1927 7
1928 11
1929 12
1930 11
1931 7
1932 8
1933 7
1934 9
1935 17
1936 6
1937 9
1938 13
1939 12
1940 7
1941 3
1942 9
1943 6
1944 10
1945 252
1946 850
1947 1140
1948 1143
1949 1023
1950 1570
1951 1837
1952 1919
1953 2210
1954 2197
1955 2303
1956 2157
1957 2539
1958 2496
1959 2520
1960 2555
1961 2881
1962 3032
1963 4403
1964 6438
1965 5257
1966 5163
1967 6431
1968 8272
1969 9134
1970 9399
1971 10312
1972 9979
1973 9816
1974 10104
1975 8771
1976 7714
1977 7883
1978 7497
1979 7449
1980 7731
1981 7459
1982 7628
1983 7925
1984 8859
1985 9272
1986 9422
1987 9374
1988 9617
1989 10058
1990 10229
1991 10603
1992 10569
1993 10202
1994 10812
1995 11170
1996 10989
1997 11162
1998 11801
1999 12214
2000 14121
2001 15776
2002 16445
2003 17226
2004 19138
2005 22522
2006 23598
2007 25271
2008 26056
2009 26572
2010 27996
2011 29441
2012 31368
2013 32192
2014 31558
2015 31034
2016 28900
2017 27599
2018 28817
2019 30182
2020 32797
2021 34645
2022 49718
2023 39494
2024 17231

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962,475 results

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Page 1
Molecular Crowding Electrolytes for Stable Proton Batteries.
Wu S, Chen J, Su Z, Guo H, Zhao T, Jia C, Stansby J, Tang J, Rawal A, Fang Y, Ho J, Zhao C. Wu S, et al. Small. 2022 Nov;18(45):e2202992. doi: 10.1002/smll.202202992. Epub 2022 Sep 26. Small. 2022. PMID: 36156409
However, some electrode materials are vulnerable because of the co-intercalation of free water molecules in traditional acid electrolytes, resulting in rapid capacity fading. Here, the authors report a molecular crowding electrolyte with the usage of poly(ethylene g …
However, some electrode materials are vulnerable because of the co-intercalation of free water molecules in traditional acid electrolytes
Electrolytes Gone Wild in a 56-Year-Old Man.
Tang MS, McCoy DG, Eby CS, Scott MG. Tang MS, et al. Clin Chem. 2020 Feb 1;66(2):398-399. doi: 10.1093/clinchem/hvz016. Clin Chem. 2020. PMID: 32040585 No abstract available.
Hydrogen-Bond Disrupting Electrolytes for Fast and Stable Proton Batteries.
Su Z, Chen J, Stansby J, Jia C, Zhao T, Tang J, Fang Y, Rawal A, Ho J, Zhao C. Su Z, et al. Small. 2022 Jun;18(22):e2201449. doi: 10.1002/smll.202201449. Epub 2022 May 12. Small. 2022. PMID: 35557499
However, poor cycling stability is a big challenge for proton batteries due to the attachment of water molecules to the electrode surface in acid electrolytes. Here, a hydrogen-bond disrupting electrolyte strategy to boost proton battery stability via simultaneously …
However, poor cycling stability is a big challenge for proton batteries due to the attachment of water molecules to the electrode surface in …
"Water-in-Sugar" Electrolytes Enable Ultrafast and Stable Electrochemical Naked Proton Storage.
Su Z, Chen J, Ren W, Guo H, Jia C, Yin S, Ho J, Zhao C. Su Z, et al. Small. 2021 Oct;17(40):e2102375. doi: 10.1002/smll.202102375. Epub 2021 Sep 9. Small. 2021. PMID: 34499420
Molecular dynamics simulations reveal the significant decrease of free water in bulk electrolytes, while density functional theory calculations indicate that glucose preferentially binds to the electrode surface which can inhibit water adsorption. ...This facile electro
Molecular dynamics simulations reveal the significant decrease of free water in bulk electrolytes, while density functional theory ca …
Synergistic Effect of Blended Components in Nonaqueous Electrolytes for Lithium Ion Batteries.
Cekic-Laskovic I, von Aspern N, Imholt L, Kaymaksiz S, Oldiges K, Rad BR, Winter M. Cekic-Laskovic I, et al. Top Curr Chem (Cham). 2017 Apr;375(2):37. doi: 10.1007/s41061-017-0125-8. Epub 2017 Mar 15. Top Curr Chem (Cham). 2017. PMID: 28299728 Review.
Application of different electrolyte components as blends in nonaqueous electrolyte formulations represents a viable approach towards improving the overall performance and reliability of a lithium ion battery cell. By combining the advantages of different electro
Application of different electrolyte components as blends in nonaqueous electrolyte formulations represents a viable approach …
Electrolyte analyzers.
Dondelinger R. Dondelinger R. Biomed Instrum Technol. 2014 Sep-Oct;48(5):389-93. doi: 10.2345/0899-8205-48.5.389. Biomed Instrum Technol. 2014. PMID: 25244209 No abstract available.
Hyponatremia and malnutrition: a comprehensive review.
Baez G, Chirio M, Pisula P, Seminario E, Carasa N, Philippi R, Aroca-Martinez G, Musso CG. Baez G, et al. Ir J Med Sci. 2024 Apr;193(2):1043-1046. doi: 10.1007/s11845-023-03490-8. Epub 2023 Sep 13. Ir J Med Sci. 2024. PMID: 37702978 Free PMC article. Review.
BACKGROUND: Hyponatremia (serum sodium lower than 135 mmol/L) is the most frequent electrolyte alteration diagnosed in medical practice. It has deleterious clinical effects, being an independent predictor of mortality. ...CONCLUSION: Malnutrition can induce hyponatremia th …
BACKGROUND: Hyponatremia (serum sodium lower than 135 mmol/L) is the most frequent electrolyte alteration diagnosed in medical practi …
Electrolytic imbalance.
CONLEY LR. CONLEY LR. J Am Osteopath Assoc. 1952 Mar;51(7):367-70. J Am Osteopath Assoc. 1952. PMID: 14907437 No abstract available.
Electrical properties of tissues from a microscopic model of confined electrolytes.
Solis FJ, Jadhao V. Solis FJ, et al. Phys Med Biol. 2023 May 15;68(10). doi: 10.1088/1361-6560/accf5b. Phys Med Biol. 2023. PMID: 37084738
In the presence of oscillatory electric fields, the motion of electrolyte ions in biological tissues is often limited by the confinement created by cell and organelle walls. ...This work determines the contribution of these double layers to the bulk conductivity and permit …
In the presence of oscillatory electric fields, the motion of electrolyte ions in biological tissues is often limited by the confinem …
Electrolyte Engineering Enables High Performance Zinc-Ion Batteries.
Wang Y, Wang Z, Yang F, Liu S, Zhang S, Mao J, Guo Z. Wang Y, et al. Small. 2022 Oct;18(43):e2107033. doi: 10.1002/smll.202107033. Epub 2022 Feb 22. Small. 2022. PMID: 35191602 Review.
In this review, advanced electrolyte strategies are overviewed for optimizing the compatibility between cathode materials and electrolytes, inhibiting anode corrosion and dendrite growth, extending electrochemical stability windows, enabling wearable applications, a …
In this review, advanced electrolyte strategies are overviewed for optimizing the compatibility between cathode materials and elec
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