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1,615,157 results

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The following term was not found in PubMed: Szu-Chuang
Page 1
International perspectives on LI-RADS.
Kierans AS, Aguirre DA, Krishan S, Lee JM, Ronot M, Wang J, Hecht EM. Kierans AS, et al. Abdom Radiol (NY). 2024 Dec 19. doi: 10.1007/s00261-024-04729-3. Online ahead of print. Abdom Radiol (NY). 2024. PMID: 39699666 Review.
LI-RADS has since been expanded to include 5 algorithms: LI-RADS US Surveillance, contrast-enhanced US (CEUS) LI-RADS, LI-RADS CT/MRI, and LI-RADS Treatment Response Assessment. LI-RADS has been adopted broadly in North America, however w
LI-RADS has since been expanded to include 5 algorithms: LI-RADS US Surveillance, contrast-enhanced US (CEUS) LI-RADS,
Ion modulation engineering toward stable lithium metal anodes.
Wang C, Zhu J, Jin Y, Liu J, Wang H, Zhang Q. Wang C, et al. Mater Horiz. 2023 Aug 29;10(9):3218-3236. doi: 10.1039/d3mh00403a. Mater Horiz. 2023. PMID: 37254667 Review.
Homogeneous ion transport during Li(+) plating/stripping plays a significant role in the stability of Li metal anodes (LMAs) and the electrochemical performance of Li metal batteries (LMBs). ...Here, we are committed to rendering a comprehensive study of L
Homogeneous ion transport during Li(+) plating/stripping plays a significant role in the stability of Li metal anodes (LMAs) a …
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 …
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) …
Direct Lithium Extraction Using Intercalation Materials.
Wang J, Koenig GM Jr. Wang J, et al. Chemistry. 2024 Jan 16;30(4):e202302776. doi: 10.1002/chem.202302776. Epub 2023 Nov 13. Chemistry. 2024. PMID: 37819870 Review.
The environmental and economic sustainability of conventional Li processing has recently received increased scrutiny. Routes such as direct Li(+) extraction may provide advantages relative to conventional Li(+) extraction technologies, and one possible route …
The environmental and economic sustainability of conventional Li processing has recently received increased scrutiny. Routes such as …
Spatially isolating Li(+) reduction from Li deposition via a Li(22)Sn(5) alloy protective layer for advanced Li metal anodes.
Xie J, Xue J, Wang H, Li J. Xie J, et al. Phys Chem Chem Phys. 2023 Nov 8;25(43):29797-29807. doi: 10.1039/d3cp03713d. Phys Chem Chem Phys. 2023. PMID: 37886830
A Li alloy based artificial coating layer can improve the cyclic performance of Li metal anodes. ...During the striping/plating process, the thickness and composition of the Li-Sn alloy passivation layer remain unchanged. Meanwhile, Li(+) ions are redu …
A Li alloy based artificial coating layer can improve the cyclic performance of Li metal anodes. ...During the striping/platin …
Air-Stable Li(2)S Cathodes Enabled by an In Situ-Formed Li(+) Conductor for Graphite-Li(2)S Pouch Cells.
Qi X, Jin X, Xu H, Pan Y, Yang F, Zhu Z, Ji J, Jiang R, Du H, Ji Y, Yang D, Qie L, Huang Y. Qi X, et al. Adv Mater. 2024 Apr;36(14):e2310756. doi: 10.1002/adma.202310756. Epub 2024 Jan 7. Adv Mater. 2024. PMID: 38174831
Here, Li(4)SnS(4), a Li(+) conductor that is air-stable according to the hard-soft acid-base principle, is formed in situ and uniformly on Li(2)S particles because Li(2)S itself participates in Li(4)SnS(4) formation. ...A graphite-Li(2)S …
Here, Li(4)SnS(4), a Li(+) conductor that is air-stable according to the hard-soft acid-base principle, is formed in situ and …
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) …
Utilization of Electrodeionization for Lithium Removal.
Demir G, Mert AN, Arar Ö. Demir G, et al. ACS Omega. 2023 May 10;8(20):17583-17590. doi: 10.1021/acsomega.2c08095. eCollection 2023 May 23. ACS Omega. 2023. PMID: 37251165 Free PMC article.
At 20 V, 99% of Li(+) was removed from the Li-containing solution. In addition, a decrease in the flow rate of the Li-containing solution from 2 to 1 L/h resulted in a decrease in the removal rate from 99 to 94%. ...The selectivity test showed that the simult …
At 20 V, 99% of Li(+) was removed from the Li-containing solution. In addition, a decrease in the flow rate of the Li-c …
Preparation of Li-Excess and Li-Deficient Antiperovskite Structured Li(2+x)OH(1-x)Br and Their Effects on Total Ionic Conductivity.
Sugumar MK, Yamamoto T, Ikeda K, Motoyama M, Iriyama Y. Sugumar MK, et al. Inorg Chem. 2022 Mar 21;61(11):4655-4659. doi: 10.1021/acs.inorgchem.1c03657. Epub 2022 Mar 8. Inorg Chem. 2022. PMID: 35258960
This paper describes about the effect of Li-H exchange amount on total lithium-ion (Li(+)) conductivity of Li(2+x)OH(1-x)Br (x = -0.5 to +0.4). ...This trade-off provides an optimized sigma(t) of 3.6 10(-6) S cm(-1) at the Li-excess Li(2.2)OH(0. …
This paper describes about the effect of Li-H exchange amount on total lithium-ion (Li(+)) conductivity of Li(2+x)OH(1- …
1,615,157 results
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