Yuyan Shao
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Explore the profile of Yuyan Shao including associated specialties, affiliations and a list of published articles.
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49
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945
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Recent Articles
21.
Lu D, Tao J, Yan P, Henderson W, Li Q, Shao Y, et al.
Nano Lett
. 2017 Feb;
17(3):1602-1609.
PMID: 28165750
Li-ion batteries (LIB) have been successfully commercialized after the identification of ethylene-carbonate (EC)-containing electrolyte that can form a stable solid electrolyte interphase (SEI) on carbon anode surface to passivate further...
22.
Pan H, Han K, Vijayakumar M, Xiao J, Cao R, Chen J, et al.
ACS Appl Mater Interfaces
. 2016 Jul;
9(5):4290-4295.
PMID: 27367455
In rechargeable Li-S batteries, the uncontrollable passivation of electrodes by highly insulating LiS limits sulfur utilization, increases polarization, and decreases cycling stability. Dissolving LiS in organic electrolyte is a facile...
23.
Vissers D, Chen Z, Shao Y, Engelhard M, Das U, Redfern P, et al.
ACS Appl Mater Interfaces
. 2016 May;
8(22):14244-51.
PMID: 27152912
Lithium ion batteries utilizing manganese-based cathodes have received considerable interest in recent years for their lower cost and more favorable environmental friendliness relative to their cobalt counterparts. However, Li ion...
24.
He Y, Gu M, Xiao H, Luo L, Shao Y, Gao F, et al.
Angew Chem Int Ed Engl
. 2016 Apr;
55(21):6244-7.
PMID: 27071488
Intercalation and conversion are two fundamental chemical processes for battery materials in response to ion insertion. The interplay between these two chemical processes has never been directly seen and understood...
25.
Cheng Y, Shao Y, Parent L, Sushko M, Li G, Sushko P, et al.
Adv Mater
. 2015 Oct;
27(42):6598-605.
PMID: 26421524
An interface promoted approach is developed for guiding the design of stable and high capacity materials for Mg batteries using SnSb alloys as model materials. Experimental and theoretical studies reveal...
26.
Lv D, Yan P, Shao Y, Li Q, Ferrara S, Pan H, et al.
Chem Commun (Camb)
. 2015 Jul;
51(70):13454-7.
PMID: 26214797
The unstable interface of lithium metal in high energy density Li sulfur (Li-S) batteries raises concerns of poor cycling, low efficiency and safety issues, which may be addressed by using...
27.
Cheng Y, Stolley R, Han K, Shao Y, Arey B, Washton N, et al.
Phys Chem Chem Phys
. 2015 Apr;
17(20):13307-14.
PMID: 25920549
A novel [Mg2(μ-Cl)2](2+) cation complex, which is highly active for reversible Mg electrodeposition, was identified for the first time in this work. This complex was found to be present in...
28.
Liu T, Cox J, Hu D, Deng X, Hu J, Hu M, et al.
Chem Commun (Camb)
. 2015 Jan;
51(12):2312-5.
PMID: 25562393
The long sought solvated [MgCl](+) species in the Mg-dimer electrolytes was characterized by soft mass spectrometry. The presented study provides an insightful understanding on the electrolyte chemistry of rechargeable Mg...
29.
Parent L, Cheng Y, Sushko P, Shao Y, Liu J, Wang C, et al.
Nano Lett
. 2014 Dec;
15(2):1177-82.
PMID: 25531653
Magnesium is of great interest as a replacement for lithium in next-generation ion-transfer batteries but Mg-metal anodes currently face critical challenges related to the formation of passivating layers during Mg-plating/stripping...
30.
Cheng Y, Shao Y, Zhang J, Sprenkle V, Liu J, Li G
Chem Commun (Camb)
. 2014 Jun;
50(68):9644-6.
PMID: 24964330
This work studied hybrid batteries assembled with a Mg metal anode, a Li(+) ion intercalation cathode and a dual-salt electrolyte containing Mg(2+) and Li(+) ions. We show that such hybrid...