Whittingham, Michael Stanley

Publication with MATCHING institution:

Whittingham MS, Siu C, Ding J (2018) Can Multielectron Intercalation Reactions Be the Basis of Next Generation
Batteries? Accounts of Chemical Research. [IF=3.533, Cited=9, 29327579].
Lebens-Higgins ZW, Chung H, Zuba MJ, ..., Piper LFJ (2020) How Bulk Sensitive is Hard X-ray Photoelectron Spectroscopy:
Accounting for the Cathode-Electrolyte Interface when Addressing Oxygen Redox. Journal of Physical Chemistry Letters.
[IF=1.158, Cited=5, 32101006].
Hu J, Wang Q, Wu B, ..., Hu E (2021) Fundamental Linkage Between Structure, Electrochemical Properties, and Chemical
Compositions of LiNi_1-x-yMn_xCo_yO₂ Cathode
Materials. ACS applied materials & interfaces. [IF=1.429, Cited=3, 33410655].
Huang Y, Lin YC, Jenkins DM, ..., Whittingham MS (2016) Thermal Stability and Reactivity of Cathode Materials for Li-Ion
Batteries. ACS applied materials & interfaces. [IF=1.429, Cited=7, 26915096].
Karki K, Huang Y, Hwang S, ..., Stach EA (2016) Tuning the Activity of Oxygen in
LiNi_0.8Co_0.15Al_0.05O₂ Battery Electrodes. ACS applied materials &
interfaces. [IF=1.429, Cited=2, 27667724].
Zhou H, Shi Y, Xin F, ..., Whittingham MS (2017) ε- and β-LiVOPO₄: Phase Transformation and Electrochemistry.
ACS applied materials & interfaces. [IF=1.429, Cited=1, 28786663].
Shi Y, Zhou H, Seymour ID, ..., Whittingham MS (2018) Electrochemical Performance of Nanosized Disordered
LiVOPO₄. ACS Omega. [IF=0.941, Cited=2, 31458891].
Dong Z, Wang Q, Zhang R, ..., Whittingham MS (2019) Reaction Mechanism of the Sn₂Fe Anode in Lithium-Ion
Batteries. ACS Omega. [IF=0.941, Cited=0, 31909317].
Whittingham MS (2014) Ultimate limits to intercalation reactions for lithium batteries. Chemical Reviews. [IF=11.712,
Cited=89, 25354149].
Cabana J, Chernova NA, Xiao J, ..., Grey CP (2013) Study of the transition metal ordering in layered
Na(x)Ni(x/2)Mn(1-x/2)O2 (2/3 ≤ x ≤ 1) and consequences of Na/Li exchange. Inorganic Chemistry. [IF=0.986, Cited=7, 23909957].
Ellingsen LAW, Hung CR, Majeau-Bettez G, ..., Strømman AH (2016) Nanotechnology for environmentally sustainable
electromobility. Nature Nanotechnology. [IF=6.001, Cited=11, 27920441].
Zhou LQ, Ling C, Zhou H, ..., Jia H (2019) A high-performance oxygen evolution catalyst in neutral-pH for sunlight-
driven CO₂ reduction. Nature Communications. [IF=3.268, Cited=2, 31501446].
Lin R, Bak SM, Shin Y, ..., Yang XQ (2021) Hierarchical nickel valence gradient stabilizes high-nickel content layered
cathode materials. Nature Communications. [IF=3.268, Cited=8, 33879789].
Siu C, Seymour ID, Britto S, ..., Whittingham MS (2018) Enabling multi-electron reaction of ε-VOPO₄ to reach
theoretical capacity for lithium-ion batteries. Chemical Communications. [IF=0.902, Cited=2, 29946607].
Yin L, Mattei GS, Li Z, ..., Khalifah PG (2018) Extending the limits of powder diffraction analysis: Diffraction
parameter space, occupancy defects, and atomic form factors. Review of Scientific Instruments. [IF=0.917, Cited=2, 30278743].

Publication with MISMATCHING institution:

Dong Z, Zhang R, Ji D, ..., Whittingham MS (2016) The Anode Challenge for Lithium-Ion Batteries: A Mechanochemically
Synthesized Sn-Fe-C Composite Anode Surpasses Graphitic Carbon. Advanced Science. [IF=2.304, Cited=4, 27812462].
Zhang H, Liu H, Piper LFJ, ..., Zhou G (2022) Oxygen Loss in Layered Oxide Cathodes for Li-Ion Batteries: Mechanisms,
Effects, and Mitigation. Chemical Reviews. [IF=11.712, Cited=6, 35025511].
Xin F, Zhou H, Bai J, ..., Whittingham MS (2021) Conditioning the Surface and Bulk of High-Nickel Cathodes with a Nb
Coating: An In Situ X-ray Study. Journal of Physical Chemistry Letters. [IF=1.158, Cited=1, 34383509].
Zhang H, Zhou H, Deng Z, ..., Zhou G (2022) Oxygen-Loss-Induced Structural Degradation in ε-LiVOPO₄. ACS
applied materials & interfaces. [IF=1.429, Cited=0, 36537553].
Kim SW, Pereira N, Chernova NA, ..., Wang F (2015) Structure Stabilization by Mixed Anions in Oxyfluoride Cathodes for
High-Energy Lithium Batteries. ACS Nano. [IF=2.423, Cited=10, 26382877].
Xin F, Zhou H, Yin Q, ..., Whittingham MS (2019) Nanocrystal Conversion-Assisted Design of Sn-Fe Alloy with a Core-Shell
Structure as High-Performance Anodes for Lithium-Ion Batteries. ACS Omega. [IF=0.941, Cited=2, 31459672].
Feng J, Huang Z, Guo C, ..., Whittingham MS (2013) An organic coprecipitation route to synthesize high voltage
LiNi0.5Mn1.5O4. ACS applied materials & interfaces. [IF=1.429, Cited=7, 24074232].
Cabana J, Casas-Cabanas M, Omenya FO, ..., Grey CP (2012) Composition-structure relationships in the Li-ion battery
electrode material LiNi(0.5)Mn(1.5)O(4). Chemistry of Materials. [IF=1.559, Cited=21, 23002325].
Whittingham MS, Savinell RF, Zawodzinski T (2004) Introduction: batteries and fuel cells. Chemical Reviews. [IF=11.712,
Cited=12, 15669154].
Whittingham MS (2004) Lithium batteries and cathode materials. Chemical Reviews. [IF=11.712, Cited=555, 15669156].
Song Y, Zavalij PY, Suzuki M, Whittingham MS (2002) New iron(III) phosphate phases: crystal structure and
electrochemical and magnetic properties. Inorganic Chemistry. [IF=0.986, Cited=14, 12401083].
Wang F, Robert R, Chernova NA, ..., Graetz J (2011) Conversion reaction mechanisms in lithium ion batteries: study of
the binary metal fluoride electrodes. Journal of the American Chemical Society. [IF=2.573, Cited=57, 21894971].
Clément RJ, Pell AJ, Middlemiss DS, ..., Pintacuda G (2012) Spin-transfer pathways in paramagnetic lithium transition-
metal phosphates from combined broadband isotropic solid-state MAS NMR spectroscopy and DFT calculations. Journal of the
American Chemical Society. [IF=2.573, Cited=33, 23004936].
Cao J, Musfeldt JL, Mazumdar S, ..., Whittingham MS (2007) Pinned low-energy electronic excitation in metal-exchanged
vanadium oxide nanoscrolls. Nano Letters. [IF=1.873, Cited=3, 17628114].
Whittingham MS (2008) Inorganic nanomaterials for batteries. Dalton Transactions. [IF=0.808, Cited=17, 19082022].
Yang H, Wang Q, Zhang R, ..., Whittingham MS (2016) The electrochemical behaviour of TTF in Li-O2 batteries using a
TEGDME-based electrolyte. Chemical Communications. [IF=0.902, Cited=5, 27215824].
Whittingham MS (1976) Electrical energy storage and intercalation chemistry. Science. [IF=7.729, Cited=132, 17748676].

Publication with MISSING institution:

Xiao J, Chen X, Sushko PV, ..., Whittingham MS (2012) High-performance LiNi0.5Mn1.5O4 spinel controlled by Mn3+
concentration and site disorder. Advanced Materials. [IF=4.1, Cited=38, 22431364].
Rhoads LS, Silkworth WT, Roppolo ML, Whittingham MS (2009) Cytotoxicity of nanostructured vanadium oxide on human cells
in vitro. Toxicology in Vitro. [IF=0.785, Cited=8, 19716874].
Huang Y, Chernova NA, Yin Q, ..., Whittingham MS (2016) What Happens to LiMnPO4 upon Chemical Delithiation? Inorganic
Chemistry. [IF=0.986, Cited=0, 27065434].
Wangoh LW, Huang Y, Jezorek RL, ..., Piper LFJ (2016) Correlating Lithium Hydroxyl Accumulation with Capacity Retention
in V2O5 Aerogel Cathodes. ACS applied materials & interfaces. [IF=1.429, Cited=1, 27104947].
Xin F, Zhou H, Chen X, ..., Whittingham MS (2019) Li-Nb-O Coating/Substitution Enhances the Electrochemical Performance
of the LiNi_0.8Mn_0.1Co_0.1O₂ (NMC 811) Cathode. ACS applied materials &
interfaces. [IF=1.429, Cited=7, 31466439].
Mishra A, Ali A, Upreti S, ..., Gupta R (2009) Cobalt complex as building blocks: synthesis, characterization, and
catalytic applications of {Cd2+-Co3+-Cd2+} and {Hg2+-Co3+-Hg2+} heterobimetallic complexes. Inorganic Chemistry.
[IF=0.986, Cited=18, 19445471].
Ellingsen LAW, Hung CR, Majeau-Bettez G, ..., Strømman AH (2017) Corrigendum: Nanotechnology for environmentally
sustainable electromobility. Nature Nanotechnology. [IF=6.001, Cited=1, 28070130].
Xiao J, Chernova NA, Upreti S, ..., Zhang JG (2011) Electrochemical performances of LiMnPO4 synthesized from non-
stoichiometric Li/Mn ratio. Physical Chemistry Chemical Physics. [IF=0.906, Cited=2, 21909564].
Zheng J, Xiao J, Yu X, ..., Zhang JG (2012) Enhanced Li+ ion transport in LiNi0.5Mn1.5O4 through control of site
disorder. Physical Chemistry Chemical Physics. [IF=0.906, Cited=20, 22968196].
Yin J, Fang B, Luo J, ..., Zhong CJ (2012) Nanoscale alloying effect of gold-platinum nanoparticles as cathode catalysts
on the performance of a rechargeable lithium-oxygen battery. Nanotechnology. [IF=0.717, Cited=6, 22781275].
Zavalij PY, Yang S, Whittingham MS (2004) Structural chemistry of new lithium bis(oxalato)borate solvates. None.
[IF=None, Cited=4, 15534382].
Upreti S, Yakubovich OV, Chernova NA, Whittingham MS (2011) A novel lithium copper iron phosphate with idealized formula
Li(5)Cu(2)Fe(PO(4))(4): crystal structure and distribution of defects. None. [IF=None, Cited=0, 21754255].
Zhou H, Upreti S, Chernova NA, Whittingham MS (2011) Lithium cobalt(II) pyrophosphate, Li(1.86)CoP(2)O(7), from
synchrotron X-ray powder data. None. [IF=None, Cited=1, 22065824].
Dobley A, Zavalij PY, Whittingham MS (2000) Sodium trivanadium(III) bis(sulfate) hexahydroxide. None. [IF=None,
Cited=0, 11077272].
Yang S, Zavalij PY, Whittingham MS (2001) Li(2)Sn(OH)(6). None. [IF=None, Cited=0, 11250556].
Zavalij PY, Yang S, Whittingham MS (2003) Structures of potassium, sodium and lithium bis(oxalato)borate salts from
powder diffraction data. None. [IF=None, Cited=6, 14634252].