Gordon L Graff
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Explore the profile of Gordon L Graff including associated specialties, affiliations and a list of published articles.
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14
Citations
301
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Recent Articles
1.
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...
2.
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...
3.
Xiao J, Meduri P, Chen H, Wang Z, Gao F, Hu J, et al.
ChemSusChem
. 2014 Feb;
7(5):1295-300.
PMID: 24520018
Functionalized graphene sheets (FGSs) comprise a unique member of the carbon family, demonstrating excellent electrical conductivity and mechanical strength. However, the detailed chemical composition of this material is still unclear....
4.
Huang C, Xiao J, Shao Y, Zheng J, Bennett W, Lu D, et al.
Nat Commun
. 2014 Jan;
5:3015.
PMID: 24402522
Lithium-sulphur batteries have high theoretical energy density and potentially low cost, but significant challenges such as severe capacity degradation prevent its widespread adoption. Here we report a new design of...
5.
Ding F, Xu W, Graff G, Zhang J, Sushko M, Chen X, et al.
J Am Chem Soc
. 2013 Mar;
135(11):4450-6.
PMID: 23448508
Rechargeable lithium metal batteries are considered the "Holy Grail" of energy storage systems. Unfortunately, uncontrollable dendritic lithium growth inherent in these batteries (upon repeated charge/discharge cycling) has prevented their practical...
6.
Zheng J, Xiao J, Yu X, Kovarik L, Gu M, Omenya F, et al.
Phys Chem Chem Phys
. 2012 Sep;
14(39):13515-21.
PMID: 22968196
High voltage spinel LiNi(0.5)Mn(1.5)O(4) is a very promising cathode material for lithium ion batteries that can be used to power hybrid electrical vehicles (HEVs). Through careful control of the cooling...
7.
Chen X, Li X, Ding F, Xu W, Xiao J, Cao Y, et al.
Nano Lett
. 2012 Jul;
12(8):4124-30.
PMID: 22800407
A cost-effective and scalable method is developed to prepare a core-shell structured Si/B(4)C composite with graphite coating with high efficiency, exceptional rate performance, and long-term stability. In this material, conductive...
8.
Xiao J, Chen X, Sushko P, Sushko M, Kovarik L, Feng J, et al.
Adv Mater
. 2012 Mar;
24(16):2109-16.
PMID: 22431364
The complex correlation between Mn(3+) ions and the disordered phase in the lattice structure of high voltage spinel, and its effect on the charge transport properties, are revealed through a...
9.
Vijayakumar M, Schwenzer B, Kim S, Yang Z, Thevuthasan S, Liu J, et al.
Solid State Nucl Magn Reson
. 2011 Dec;
42:71-80.
PMID: 22192576
Proton conducting polymer composite membranes are of technological interest in many energy devices such as fuel cells and redox flow batteries. In particular, polymer composite membranes, such as SiO(2) incorporated...
10.
Xiao J, Mei D, Li X, Xu W, Wang D, Graff G, et al.
Nano Lett
. 2011 Oct;
11(11):5071-8.
PMID: 21985448
The lithium-air battery is one of the most promising technologies among various electrochemical energy storage systems. We demonstrate that a novel air electrode consisting of an unusual hierarchical arrangement of...