Jianhongyu Li - Search Results

Year	Number of Results
1840	1
1854	1
1856	1
1859	1
1868	1
1869	2
1871	2
1872	3
1873	1
1874	2
1875	2
1877	1
1883	4
1884	1
1886	1
1889	2
1893	3
1894	1
1896	2
1897	12
1898	11
1899	8
1903	1
1910	1
1911	1
1912	1
1919	3
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	2
1936	3
1937	2
1939	8
1940	6
1941	1
1942	4
1944	1
1945	13
1946	18
1947	32
1948	28
1949	28
1950	44
1951	49
1952	58
1953	57
1954	64
1955	56
1956	54
1957	56
1958	72
1959	90
1960	68
1961	45
1962	73
1963	178
1964	223
1965	186
1966	155
1967	81
1968	164
1969	209
1970	189
1971	170
1972	242
1973	233
1974	280
1975	347
1976	385
1977	423
1978	369
1979	461
1980	606
1981	784
1982	842
1983	988
1984	1084
1985	1436
1986	1652
1987	1889
1988	1972
1989	2206
1990	2375
1991	2587
1992	2873
1993	3363
1994	3702
1995	3972
1996	4540
1997	5111
1998	5073
1999	5841
2000	6393
2001	7369
2002	8727
2003	10773
2004	13104
2005	16096
2006	18551
2007	21206
2008	24921
2009	28715
2010	33705
2011	39085
2012	45682
2013	53661
2014	62291
2015	70662
2016	74345
2017	82075
2018	94326
2019	109174
2020	129442
2021	147262
2022	173125
2023	170425
2024	138775
2025	218

1

Fast Li-Ion Conduction in Spinel-Structured Solids.

Allen JL, Crear BA, Choudhury R, Wang MJ, Tran DT, Ma L, Piccoli PM, Sakamoto J, Wolfenstine J. Allen JL, et al. Molecules. 2021 Apr 30;26(9):2625. doi: 10.3390/molecules26092625. Molecules. 2021. PMID: 33946368 Free PMC article.

Spinel-structured solids were studied to understand if fast Li(+) ion conduction can be achieved with Li occupying multiple crystallographic sites of the structure to form a "Li-stuffed" spinel, and if the concept is applicable to prepare a high mixed electro …

Spinel-structured solids were studied to understand if fast Li(+) ion conduction can be achieved with Li occupying multiple cr …

2

Stamping Flexible Li Alloy Anodes.

Gao J, Chen C, Dong Q, Dai J, Yao Y, Li T, Rundlett A, Wang R, Wang C, Hu L. Gao J, et al. Adv Mater. 2021 Mar;33(11):e2005305. doi: 10.1002/adma.202005305. Epub 2021 Feb 10. Adv Mater. 2021. PMID: 33569846

The incorporation of Sn provides the nucleation center for Li, thereby mitigating Li dendrites as well as decreasing the overpotential during Li stripping/plating (e.g., <10 mV at 0.25 mA cm(-2) ). As a proof-of-concept, a flexible Li-ion battery us …

The incorporation of Sn provides the nucleation center for Li, thereby mitigating Li dendrites as well as decreasing the overp …

3

Li-Compound Anodes: A Classification for High-Performance Li-Ion Battery Anodes.

Nam KH, Jeong S, Yu BC, Choi JH, Jeon KJ, Park CM. Nam KH, et al. ACS Nano. 2022 Sep 27;16(9):13704-13714. doi: 10.1021/acsnano.2c05172. Epub 2022 Jul 25. ACS Nano. 2022. PMID: 35876656

Four main anode types are generally considered as typical anodes for Li-ion batteries (LIBs): Li-metal, carbon-based, alloy-based, and oxide-based anodes. Although they exhibit satisfactory electrochemical performance as LIB anodes, they cannot simultaneously satisf …

Four main anode types are generally considered as typical anodes for Li-ion batteries (LIBs): Li-metal, carbon-based, alloy-ba …

4

Defects, diffusion and dopants in Li(8)SnO(6).

Kuganathan N, Solovjov AL, Vovk RV, Chroneos A. Kuganathan N, et al. Heliyon. 2021 Jul 2;7(7):e07460. doi: 10.1016/j.heliyon.2021.e07460. eCollection 2021 Jul. Heliyon. 2021. PMID: 34278035 Free PMC article.

The most thermodynamically favourable intrinsic defect is the Li Frenkel which increases the concentration of Li vacancies needed for the vacancy mediated diffusion of Li-ions in Li(8)SnO(6). ...While the concentration of Li interstitials can en …

The most thermodynamically favourable intrinsic defect is the Li Frenkel which increases the concentration of Li vacancies nee …

5

Electrochemical behaviors of Li-B alloys in a LiCl-LiBr-KBr molten salt system.

Wang C, Zhang X, Peng K, Cui Y, He K, Zhang X, Cao Y, Xu Y, Jin X. Wang C, et al. Phys Chem Chem Phys. 2022 Nov 30;24(46):28205-28212. doi: 10.1039/d2cp04125a. Phys Chem Chem Phys. 2022. PMID: 36412211

Li-B alloys present higher voltages and better power performances than those of conventional Li-Al and Li-Si anodes for thermal batteries. ...The discharge of the Li-B alloy electrode includes electrochemical dissolution of free lithium (Li L …

Li-B alloys present higher voltages and better power performances than those of conventional Li-Al and Li-Si anodes for …

6

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) …

7

Does Li-ion transport occur rapidly in localized high-concentration electrolytes?

Watanabe Y, Ugata Y, Ueno K, Watanabe M, Dokko K. Watanabe Y, et al. Phys Chem Chem Phys. 2023 Jan 27;25(4):3092-3099. doi: 10.1039/d2cp05319e. Phys Chem Chem Phys. 2023. PMID: 36621826

The ionic conductivity and lithium-ion transference number of electrolytes significantly influence the rate capability of Li-ion batteries. Highly concentrated Li-salt/sulfolane (SL) electrolytes exhibit elevated Li(+) transference numbers due to lithium-ion …

The ionic conductivity and lithium-ion transference number of electrolytes significantly influence the rate capability of Li-ion batt …

8

Lithiophilic Nanowire Guided Li Deposition in Li Metal Batteries.

Abdul Ahad S, Bhattacharya S, Kilian S, Ottaviani M, Ryan KM, Kennedy T, Thompson D, Geaney H. Abdul Ahad S, et al. Small. 2023 Jan;19(2):e2205142. doi: 10.1002/smll.202205142. Epub 2022 Nov 18. Small. 2023. PMID: 36398602

Lithium (Li) metal batteries (LMBs) provide superior energy densities far beyond current Li-ion batteries (LIBs) but practical applications are hindered by uncontrolled dendrite formation and the build-up of dead Li in "hostless" Li metal anodes. To ci …

Lithium (Li) metal batteries (LMBs) provide superior energy densities far beyond current Li-ion batteries (LIBs) but practical …

9

Ultrathin Li-rich Li-Cu alloy anode capped with lithiophilic LiC(6) headspace enabling stable cyclic performance.

Wang Z, Deng Q, Song Z, Liu Y, Xing J, Wei C, Wang Y, Li J. Wang Z, et al. J Colloid Interface Sci. 2023 Aug;643:205-213. doi: 10.1016/j.jcis.2023.03.191. Epub 2023 Apr 1. J Colloid Interface Sci. 2023. PMID: 37058895

Li-rich dual-phase Li-Cu alloy is a promising candidate toward practical application of Li metal anode due to its in situ formed unique three-dimensional (3D) skeleton of electrochemical inert LiCu(x) solid-solution phase. Since a thin layer of metallic Li …

Li-rich dual-phase Li-Cu alloy is a promising candidate toward practical application of Li metal anode due to its in si …

10

Li(4)GeO(4)-Li(2)CaGe(4) phase equilibria and Li(2+x)Ca(1-x)GeO(4) solid solutions.

Nikolov V, Nikolova R, Petrova N, Tzvetkov P, Koseva I. Nikolov V, et al. Heliyon. 2024 Mar 29;10(7):e28815. doi: 10.1016/j.heliyon.2024.e28815. eCollection 2024 Apr 15. Heliyon. 2024. PMID: 38596110 Free PMC article.

Detailed studies of the Li(4)Ge(4)-Li(2)CaGe(4) system by solid-phase syntheses of various compositions from pure Li(4)Ge(4) to pure Li(2)CaGe(4) in the temperature range from 25 to 1125 C is investigated for a first time. ...Concentration and temperat …

Detailed studies of the Li(4)Ge(4)-Li(2)CaGe(4) system by solid-phase syntheses of various compositions from pure Li(4) …

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