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

Year Number of Results
1859 1
1869 2
1871 2
1872 3
1874 2
1875 1
1886 1
1889 1
1893 1
1898 1
1910 1
1911 1
1912 1
1919 2
1920 4
1922 3
1923 1
1925 1
1926 1
1927 4
1928 2
1929 4
1930 1
1931 1
1932 2
1934 1
1935 1
1936 3
1937 2
1939 8
1940 6
1941 1
1942 4
1944 1
1945 13
1946 18
1947 32
1948 27
1949 28
1950 43
1951 47
1952 58
1953 56
1954 63
1955 56
1956 54
1957 55
1958 72
1959 90
1960 68
1961 44
1962 72
1963 177
1964 223
1965 186
1966 154
1967 80
1968 162
1969 208
1970 188
1971 169
1972 240
1973 233
1974 278
1975 347
1976 385
1977 423
1978 369
1979 459
1980 604
1981 784
1982 840
1983 985
1984 1082
1985 1436
1986 1651
1987 1889
1988 1971
1989 2201
1990 2373
1991 2583
1992 2863
1993 3351
1994 3688
1995 3967
1996 4530
1997 5104
1998 5071
1999 5832
2000 6387
2001 7361
2002 8717
2003 10770
2004 13097
2005 16092
2006 18550
2007 21202
2008 24909
2009 28713
2010 33674
2011 39016
2012 45593
2013 53579
2014 62141
2015 70459
2016 73993
2017 81452
2018 92060
2019 106153
2020 114726
2021 961
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893,194 results
Results by year
Filters applied: . Clear all The following term was not found in PubMed: Gendao
Page 1
Did you mean genda li (2 results)?
Li-O2 and Li-S batteries with high energy storage.
Bruce PG, Freunberger SA, Hardwick LJ, Tarascon JM. Bruce PG, et al. Nat Mater. 2011 Dec 15;11(1):19-29. doi: 10.1038/nmat3191. Nat Mater. 2011. PMID: 22169914
To go beyond the horizon of Li-ion batteries is a formidable challenge; there are few options. Here we consider two: Li-air (O(2)) and Li-S. The energy that can be stored in Li-air (based on aqueous or non-aqueous electrolytes) and Li-S cells is …
To go beyond the horizon of Li-ion batteries is a formidable challenge; there are few options. Here we consider two: Li-air (O …
Li(2) S-Based Li-Ion Sulfur Batteries: Progress and Prospects.
Jiang J, Fan Q, Chou S, Guo Z, Konstantinov K, Liu H, Wang J. Jiang J, et al. Small. 2019 Oct 28:e1903934. doi: 10.1002/smll.201903934. Online ahead of print. Small. 2019. PMID: 31657137 Review.
Li(2) S-based Li-ion sulfur batteries (LISBs), which employ lithium-metal-free anodes, are a convenient and effective way to avoid the use of lithium metal for the realization of practical Li-S batteries. ...Several important aspects of LISBs, including their
Li(2) S-based Li-ion sulfur batteries (LISBs), which employ lithium-metal-free anodes, are a convenient and effective way to a
Li-ion diffusion in Li intercalated graphite C(6)Li and C(12)Li probed by mu(+)SR.
Umegaki I, Kawauchi S, Sawada H, Nozaki H, Higuchi Y, Miwa K, Kondo Y, Månsson M, Telling M, Coomer FC, Cottrell SP, Sasaki T, Kobayashi T, Sugiyama J. Umegaki I, et al. Phys Chem Chem Phys. 2017 Jul 26;19(29):19058-19066. doi: 10.1039/c7cp02047c. Phys Chem Chem Phys. 2017. PMID: 28702527
In order to study a diffusive behavior of Li(+) in Li intercalated graphites, we have measured muon spin relaxation (mu(+)SR) spectra for C(6)Li and C(12)Li synthesized with an electrochemical reaction between Li and graphite in a Li-ion …
In order to study a diffusive behavior of Li(+) in Li intercalated graphites, we have measured muon spin relaxation (mu(+)SR) …
Li(3)N-Modified Garnet Electrolyte for All-Solid-State Lithium Metal Batteries Operated at 40 C.
Xu H, Li Y, Zhou A, Wu N, Xin S, Li Z, Goodenough JB. Xu H, et al. Nano Lett. 2018 Nov 14;18(11):7414-7418. doi: 10.1021/acs.nanolett.8b03902. Epub 2018 Oct 24. Nano Lett. 2018. PMID: 30352159
To solve this problem, this study presents an effective strategy to reduce significantly the interfacial resistance by replacing Li(2)CO(3) with Li ion conducting Li(3)N. Compared to the surface Li(2)CO(3) on garnet, Li(3)N is not only a good …
To solve this problem, this study presents an effective strategy to reduce significantly the interfacial resistance by replacing Li(2 …
Li-ion hopping conduction in highly concentrated lithium bis(fluorosulfonyl)amide/dinitrile liquid electrolytes.
Ugata Y , Thomas ML , Mandai T , Ueno K , Dokko K , Watanabe M . Ugata Y , et al. Phys Chem Chem Phys. 2019 May 15;21(19):9759-9768. doi: 10.1039/c9cp01839e. Phys Chem Chem Phys. 2019. PMID: 31041971
In addition, the Raman spectra suggested that ionic aggregates (Li+-FSA--Li+) are formed in the liquids with composition [LiFSA]/[dinitrile] > 1. ...This induces the faster diffusion of the Li+ ion than that of the ligands, i.e., hopping conduction of L
In addition, the Raman spectra suggested that ionic aggregates (Li+-FSA--Li+) are formed in the liquids with composition [LiFS …
Toward High-Performance Li Metal Anode via Difunctional Protecting Layer.
Gu J, Shen C, Fang Z, Yu J, Zheng Y, Tian Z, Shao L, Li X, Xie K. Gu J, et al. Front Chem. 2019 Aug 20;7:572. doi: 10.3389/fchem.2019.00572. eCollection 2019. Front Chem. 2019. PMID: 31482086 Free PMC article.
In this work, we construct a difunctional protecting layer on the surface of the Li anode (the AgNO(3)-modified Li anode, AMLA) for Li-S batteries. This stable protecting layer can hinder the corrosion reaction with intermediate polysulfides (Li(2)S(x) …
In this work, we construct a difunctional protecting layer on the surface of the Li anode (the AgNO(3)-modified Li anode, AMLA …
Elastic and Li-ion-percolating hybrid membrane stabilizes Li metal plating.
Pang Q, Zhou L, Nazar LF. Pang Q, et al. Proc Natl Acad Sci U S A. 2018 Dec 4;115(49):12389-12394. doi: 10.1073/pnas.1809187115. Epub 2018 Nov 19. Proc Natl Acad Sci U S A. 2018. PMID: 30455289 Free PMC article.
We demonstrate that a hybrid membrane, both elastic and Li(+)-ion percolating, can stabilize Li plating/stripping with high Coulombic efficiency. ...The protected electrode allows Li plating with 95.8% efficiency for 200 cycles and stable operation of an LTO| …
We demonstrate that a hybrid membrane, both elastic and Li(+)-ion percolating, can stabilize Li plating/stripping with high Co …
Reversible hydrogen adsorption on Li-decorated T-graphene flake: The effect of electric field.
Saedi L, Alipour E, Javanshir Z, Vahabi V. Saedi L, et al. J Mol Graph Model. 2019 Mar;87:192-196. doi: 10.1016/j.jmgm.2018.12.004. Epub 2018 Dec 8. J Mol Graph Model. 2019. PMID: 30553159
Moreover, Li atom in the Li/TG shows the high hydrogen capacity up to six H(2) molecules. On the other hand, the H(2) adsorption on the Li/TG is remarkably decreased by applying the negative EFs to the Li/TG. ...
Moreover, Li atom in the Li/TG shows the high hydrogen capacity up to six H(2) molecules. On the other hand, the H(2) adsorpti …
Subcellular distribution and chemical forms of lithium in Li-accumulator Apocynum venetum.
Qiao L, Tanveer M, Wang L, Tian C. Qiao L, et al. Plant Physiol Biochem. 2018 Nov;132:341-344. doi: 10.1016/j.plaphy.2018.09.022. Epub 2018 Sep 19. Plant Physiol Biochem. 2018. PMID: 30248520
Furthermore, water soluble and ethonal extracted Li (inorganic Li) are the main chemical forms of Li taken up by A. venetum. ...These results suggest that Li compartmentation in leaf vacuoles is important in Li detoxification and Li accum …
Furthermore, water soluble and ethonal extracted Li (inorganic Li) are the main chemical forms of Li taken up by A. ven …
Cation-Disordered Lithium-Excess Li-Fe-Ti Oxide Cathode Materials for Enhanced Li-Ion Storage.
Yang M, Jin J, Shen Y, Sun S, Zhao X, Shen X. Yang M, et al. ACS Appl Mater Interfaces. 2019 Nov 27;11(47):44144-44152. doi: 10.1021/acsami.9b14137. Epub 2019 Nov 13. ACS Appl Mater Interfaces. 2019. PMID: 31687798
Herein, cation-disordered rocksalt-type Li-Fe-Ti oxides of Li(0.89)Fe(0.44)Ti(0.45)O(2), Li(1.18)Fe(0.34)Ti(0.45)O(2), and Li(1.24)Fe(0.38)Ti(0.38)O(2) with different Li-to-transition metal ratios (Li/TM = 1, 1.49, or 1.63) are investigat …
Herein, cation-disordered rocksalt-type Li-Fe-Ti oxides of Li(0.89)Fe(0.44)Ti(0.45)O(2), Li(1.18)Fe(0.34)Ti(0.45)O(2), …
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