General Lab Information

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2015

  • "Direct observation of the redistribution of sulfur and polysufides in Li–S batteries during the first cycle by in situ X-ray fluorescence microscopy," X. Yu, H. Pan, Y. Zhou, P. Northrup, J. Xiao, S. Bak, M. Liu, K. Nam, D. Qu, J. Liu, T. Wu, X.-Q. Yang, Adv. Energy Mater. (2015), 5, 1500072.
  • "Ti-substituted tunnel-type Na0.44MnO2 oxide as a negative electrode for aqueous sodium-ion batteries," Y. Wang, J. Liu, B. Lee, R. Qiao, Z. Yang, S. Xu, X. Yu, L. Gu, Y.-S. Hu, W. Yang, K. Kang, H. Li, X.-Q. Yang, L. Chen, X. Huang, Nature Commun. (2015), 6, 6401.
  • "Probing reversible multi-electron transfer and structure evolution of Li1.2Cr0.4Mn0.4O2 cathode material for Li-ion batteries in a voltage range of 1.0-4.8 V," Y. Lyu, N. Zhao, E. Hu, R. Xiao, X. Yu, L. Gu, X.Q. Yang, H. Li, Chem. Mater. (2015), 27, 5238.
  • "A high capacity positive electrode material with tunnel-type structure for aqueous sodium-ion batteries," Y. Wang, L. Mu, J. Liu, Z. Yang, X. Yu, L. Gu, Y.-S. Hu, H. Li, X.-Q. Yang, L. Chen, X. Huang, Adv. Energy Mater. (2015), 5, 1501005.
  • "Probing the mechanism of high capacitance in 2D titanium carbide using in situ X-ray absorption spectroscopy," M. Lukatskaya, S. Bak, X. Yu, X.-Q. Yang, M.W. Barsoum, Y. Gogotsi, Adv. Energy Mater. (2015), 5, 1500589.
  • "Effects of structural defects on the electrochemical activation of Li2MnO3," L. Xiao, J. Xiao, X. Yu, P. Yan, J. Zheng, M. Engelhard, P. Bhattacharya, C. Wang, X.-Q. Yang, J.-G. Zhang, Nano energy (2015), 16, 143.
  • "Quantitative and qualitative determination of polysulfide species in the electrolyte of a lithium–sulfur battery using HPLCESI/MS with one-step derivatization," D. Zheng, D. Qu, X.-Q. Yang, X. Yu, H. Lee, D. Yu, Adv. Energy Mater. (2015), 5, 1401888.
  • "Transitions from near-surface to interior redox upon lithiation in conversion electrode materials," K. He, H. Xin, K. Zhao, X. Yu, D. Nordlund, T.-C. Weng, J. Li, Y. Jiang, C. A. Cadigan, R. M. Richards, M. M. Doeff, X.-Q. Yang, E. A. Stach, J. Li, F. Lin, D. Su, Nano Lett. (2015), 15, 1437.
  • "Effects of Mg doping on the remarkably enhanced electrochemical performance of Na3V2(PO4)3 cathode materials for sodium ion batteries," H. Li, X. Yu, Y. Bai, F. Wu, C. Wu, L. Liu, X.-Q. Yang, J. Mater. Chem. A. (2015), 3, 9578.
  • "FeO0.7F1.3/C Nanocomposite as a High-Capacity Cathode Material for Sodium-Ion Batteries," Y. N. Zhou, M. Sina, N. Pereira, X. Yu, G.G. Amatucci, X. Q. Yang, F. Cosandey, K. W. Nam, Adv. Funct. Mater. (2015), 25, 696.
  • "Quantitative chromatographic determination of dissolved elemental sulfur in the non-aqueous electrolyte for lithium-sulfur batteries," D. Zheng, X. Zhang, C. Li, M. E. McKinnon, R. G. Sadok, D. Qu, X. Yu, H.-S. Lee, X.-Q. Yang, D. Qu, J. Electrochem. Soc. (2015), 162, A203.
  • "Direct observation of sulfur radicals as reaction media in lithium sulfur batteries," Q. Wang, J. Zheng, E. Walter, H. Pan, D. Lv, P. Zuo, H. Chen, Z. D. Deng, B. Y. Liaw, X. Yu, X.-Q. Yang, J.-G. Zhang, J. Liu, J. Xiao, J. Electrochem. Soc. (2015), 162, A474.
  • "Insight into the atomic structure of high-voltage spinel LiNi0.5Mn1.5O4 cathode material," M. Lin, L. Ben, Y. Sun, H. Wang, Z. Yang, L. Gu, X. Yu, X.-Q. Yang, H. Zhao, R. Yu, M. Armand, X. Huang, Chem. Mater. (2015), 27, 292.
  • "Removal of interstitial H2O in hexacyanometallates for a superior cathode of a sodium-ion battery," J. Song, L. Wang, Y. Lu, J. Liu, B. Guo, P. Xiao, J.-J. Lee, X.-Q. Yang, G. Henkelman, J. B. Goodenough, J. Am. Chem. Soc. (2015), 137, 2658.
  • "High-surface-area nitrogen-doped reduced graphene oxide for electric double-layer capacitors," H.-C. Youn, S. Bak, M.S. Kim, C. Jaye, D.A. Fischer, C.W. Lee, X.-Q. Yang, K.C. Roh, K.B. Kim, ChemSusChem (2015), 8, 1875.
  • "Unveiling surface redox charge storage of interacting two-dimensional heteronanosheets in hierarchical Architectures," Q. Mahmood, M.G. Kim, S. Yun, S. Bak, X.-Q. Yang, H.S. Shin, W.S. Kim, P.V Braun, H. S. Park, Nano Lett. (2015), 15, 2269.

2014

  • “Tuning the electrochemical performances of anthraquinone organic cathode materials for Li-ion batteries through the sulfonic sodium functional group,” W. Wan, H. Lee, X. Yu, C. Wang, K.W. Nam, X.-Q. Yang, H.H. Zhou, RSC Adv. (2014), 4, 19878.
  • “Nanoscale lamellar monoclinic Li2MnO3 phase with stacking disordering in lithium-rich and oxygen-Deficient Li1.07Mn1.93O4-delta Cathode Materials,” Z.L. Xu, J.B. Wang, K. Zhang, H. Zheng, Z.X. Dai, J.N. Gui, X.-Q. Yang, ACS Appl. Mater. & Interfaces (2014), 6, 1219.
  • “Oxygen-release-related thermal stability and decomposition pathways of LixNi0.5Mn1.5O4 cathode materials,” E. Hu,; S. Bak, J. Liu, X. Yu, Y. Zhou, S.N. Ehrlich, X.-Q. Yang, K.N. Nam, Chem. Mater. (2014), 26, 1108.
  • “Identifying the critical role of Li substitution in P2-Nax[LiyNizMn1-y-z]O2 (0 < x, y, z < 1) intercalation cathode materials for high-energy Na-ion batteries,” J. Xu, D.H. Lee, R.J. Clement, X. Yu, M. Leskes, A.J. Pell, G. Pintacuda, X.-Q. Yang, C.P. Grey, Y.S. Meng, Chem. Mater. (2014), 26, 1260.
  • “Structural changes in reduced graphene oxide upon MnO2 deposition by the redox reaction between carbon and permanganate Ions,” S.W. Lee, S. Bak, C.W. Lee, C. Jaye, D.A. Fischer, B.K. Kim, X.-Q. Yang, K.W. Nam, K.B. Kim, J. Phys. Chem. C (2014), 118, 2834.
  • “Sol-gel synthesis of aliovalent vanadium- doped LiNi0.5Mn1.5O4 cathodes with excellent performance at high temperatures,” M.C. Kim, K.W. Nam, E. Hu, X.-Q. Yang, H. Kim, K. Kang, V. Aravindan, W.S. Kim, Y.S. Lee, ChemSusChem (2014), 7, 829.
  • “Understanding the rate capability of high-energy-density Li-rich layered Li1.2Ni0.15Co0.1Mn0.55O2 cathode materials,” X. Yu, Y. Lyu, L. Gu, H.M. Wu, S. Bak, Y. Zhou, K. Amine, S.N. Ehrlich, H. Li, K.W. Nam, X.-Q. Yang, Adv. Energy Mater. (2014), 4, 1300950.
  • “Role of surface structure on Li-ion energy storage capacity of two-dimensional transition-metal carbides,” Y. Xie, M. Naguib, V.N. Mochalin, M.W. Barsoum, Y. Gogotsi, X. Yu, K.W. Nam, X.-Q. Yang, A.I. Kolesnikov, P.R.C. Kent, J. Am. Chem. Soc. (2014), 136, 6385.
  • “Unexpected high power performance of atomic layer deposition coated Li[Ni1/3Mn1/3Co1/3]O2 cathodes,” J.W. Kim, J.J. Travis, E. Hu, K.W. Nam, S.C. Kim, C.S. Kang, J.H. Woo, X.-Q. Yang, S.M. George, K.H. Oh, S.J. Cho, S.H. Lee, J. Power Sources (2014), 254, 190.
  • "Feasibility of using Li2MoO3 in constructing Li-rich high energy density cathode materials,” J. Ma, Y. Zhou, Y. Gao, X. Yu, Q.Y. Kong, L. Gu, Z.X. Wang, X.-Q. Yang, L.Q. Chen, Chem. Mater. (2014), 26, 3256.
  • “Ionic Conduction in cubic Na3TiP3O9N, a secondary Na-ion battery cathode with extremely low volume change,” J. Liu, D.H. Chang, P. Whitfield, Y. Janssen, X. Yu, Y. Zhou, J. Bai, J. Ko, K.W. Nam, L.J. Wu, Y.M. Zhu, M. Feygenson, G. Amatucci, A. Van der Ven, X.-Q. Yang, P. Khalifah, Chem. Mater. (2014), 26, 3295.
  • “A long-life lithium-ion battery with a highly porous TiNb2O7 anode for large-scale electrical energy storage,” B.K. Guo, X. Yu, X.G. Sun, M.F. Chi, Z.A. Qiao, J. Liu, Y.S. Hu, X.-Q. Yang, J.B. Goodenough, S. Dai, Energy Environ Sci. (2014), 7, 2220.
  • “Sodiation via heterogeneous disproportionation in FeF2 electrodes for sodium-ion batteries,” K. He, Y. Zhou, P. Gao, L.P. Wang, N. Pereira, G.G. Amatucci, K.W. Nam, X.-Q. Yang, Y.M. Zhu, F. Wang, D. Su, ACS NANO (2014), 8, 7251.
  • “Structures of delithiated and degraded LiFeBO3, and their distinct changes upon electrochemical cycling,” S.H. Bo, K.W. Nam, O.J. Borkiewicz, Y.Y. Hu, X.-Q. Yang, P.J. Chupas, K.W. Chapman, L.J. Wu, L. Zhang, F. Wang, C.P. Grey, P.G. Khalifah, Inorg. Chem. (2014), 53, 6585.
  • “Molybdenum substitution for improving the charge compensation and activity of Li2MnO3,” J. Ma, Y. Zhou, Y.R. Gao, Q.Y. Kong, Z.X. Wang, X.-Q. Yang, L.Q. Chen, Chem. A. Euro. J. (2014), 20, 8723.
  • “The new electrochemical reaction mechanism of Na/FeS2 cell at ambient temperature,” Z. Shadike, Y. Zhou, F. Ding, L. Sang, K.W. Nam, X.-Q. Yang, Z.W. Fu, J. Power Sources (2014), 260, 72.
  • “Tuning charge-discharge induced unit-cell-breathing through metal-metal bonding in layer-structured cathode materials for lithium-ion batteries,” Y. Zhou, J. Ma, E. Hu, X. Yu, L. Gu, K.W. Nam, L. Chen, Z.X. Wang, X.-Q. Yang, Nature Commun. (2014), 5, 6381.
  • In situ soft XAS study on nickel-based layered cathode material at elevated temperatures: A novel approach to study thermal stability,” W.S. Yoon, O. Haas, S. Muhammad, H. Kim, W. Lee, D. Kim, D.A. Fischer, C. Jaye, X.-Q. Yang, M. Balasubramanian, K.W. Nam, Sci. Rep. (2014), 4, 6827.

2013

  • “Li(Mn1/3Ni1/3Fe1/3)O2-Polyaniline hybrids as cathode active material with ultra-fast charge-discharge capability for lithium batteries,” K. Karthikeyan, S. Amaresh, V. Aravindan, W.S. Kim, K.W. Nam, X.-Q. Yang, Y.S. Lee, J. Power Sources (2013), 232, 240.
  • “Elucidating the nature of pseudo Jahn-Teller distortions in LixMnPO4: Combining density functional theory with soft and hard X-ray spectroscopy,” L.F.J. Piper, N.F. Quackenbush, S. Sallis, D.O, Scanlon, G.W. Watson, K.W. Nam, X.-Q. Yang, K.E. Smith, F. Omenya, N.A. Chernova, M.S. Whittingham, J. Phys. Chem. C. (2013), 117, 10383.
  • “Electrochemical properties of P2-phase Na0.74CoO2 compounds as cathode material for rechargeable sodium-ion batteries,” J.J. Ding, Y. Zhou, Q. Sun, X. Yu, X.-Q. Yang, Z.W. Fu, Electrochimica Acta (2013), 87, 388.
  • “Phase transition behavior of NaCrO2 during sodium extraction studied by synchrotron-based X-ray diffraction and absorption spectroscopy,” Y. Zhou, J.J. Ding, K.W. Nam, X. Yu, S. Bak, E. Hu, J. Liu, J. Bai, H. Li, Z.W. Fu, X.-Q. Yang, J. Mater. Chem. A (2013), 1, 11130.
  • “Electrochemical Oxidation of Solid Li2O2 in Non-aqueous Electrolyte Using Peroxide Complexing Additives for Lithium-Air Batteries,” D. Zheng, H.S. Lee, X.-Q. Yang, D.Y. Qu, Electrochem. Commun. (2013), 28, 17.
  • “Triplite LiFeSO4F as cathode material for Li-ion batteries,” J. Dong, X. Yu, Y. Sun, L. Liu, X.-Q. Yang, X. Huang, J. Power Sources (2013), 244, 716.
  • “Correlating structural changes and gas evolution during the thermal decomposition of charged LixNi0.8Co0.15Al0.05O2 cathode materials,” S. Bak, K.W. Nam, W. Chang, X.Yu, E. Hu, S. Hwang, E.A. Stach, K.B. Kim, K.Y. Chung, X.-Q. Yang, Chem. Mater. (2013), 25, 337.
  • “Combining in situ synchrotron X-ray diffraction and absorption techniques with transmission electron microscopy to study the origin of thermal instability in overcharged cathode materials for lithium-ion batteries,” K.W. Nam, S.M. Bak, E. Hu, X. Yu, Y. Zhou, X.J. Wang, L.J. Wu, Y.M. Zhu, K.Y. Chung, X.-Q. Yang, Adv. Funct. Mater. (2013), 23, 1047.
  • “Catalytic disproportionation of the superoxide intermediate from electrochemical O2 reduction in nonaqueous electrolytes,” D. Zheng, Q. Wang, H.S. Lee, X.-Q. Yang, D.Y. Qu, Chem. A Euro. J. (2013), 19, 8679.
  • “Thermal stability of charged LiNi0.5Co0.2Mn0.3O2 cathode for Li-ion batteries investigated by synchrotron based in situ X-ray diffraction,” Y.H. Cho, D. Jang, J. Yoon, H. Kim, T.K. Ahn, K.W. Nam, Y.E. Sung, W.S. Kim, Y.S. Lee, X.-Q. Yang, W.S. Yoon, J. Alloys Compd. (2013), 562, 219.
  • “A zero-strain layered metal oxide as the negative electrode for long-life sodium-ion batteries,” Y.S. Wang, X. Yu, S.Y. Xu, J. Bai, R.J. Xiao, Y.S. Hu, H. Li, X.-Q. Yang, L. Chen, X. Huang, Nature Commun. (2013), 4, 2365.
  • In situ ESR spectro-electrochemical investigation of the superoxide anion radical during the electrochemical O2 reduction reaction in aprotic electrolyte,” Q. Wang, X.-Q. Yang, D.Y. Qu, Carbon (2013), 61, 336.
  • “Sodium storage and transport properties in layered Na2Ti3O7 for room-temperature sodium-ion batteries,” H.L. Pan, X. Lu, X. Yu, Y.S. Hu, H. Li, X.-Q. Yang, L. Chen, Adv. Energy Mater. (2013), 3, 1186.
  • “A size-dependent sodium storage mechanism in Li4Ti5O12 investigated by a novel characterization technique combining in situ X-ray diffraction and chemical sodiation,” X. Yu, H.L. Pan, W. Wan, C. Ma, J. Bai, Q.P. Meng, S.N. Ehrlich, Y.S. Hu, X.-Q. Yang, Nano Lett. (2013), 13, 4721.
  • “Electrochemical reaction of lithium with nanostructured silicon anodes: a study by in-situ synchrotron X-ray diffraction and electron energy-loss spectroscopy,” F. Wang, L.J. Wu, B. Key, X.-Q. Yang, C.P. Grey, Y.M. Zhu, J. Graetz, Adv. Energy Mater. (2013), 3, 1324.
  • “Divalent iron nitridophosphates: a new class of cathode materials for Li-ion batteries,” J. Liu, X. Yu, E. Hu, K.W. Nam, X.-Q. Yang, P.G. Khalifah, Chem. Mater. (2013), 25, 3929.
  • “Interplay between two-phase and solid solution reactions in high voltage spinel cathode material for lithium ion batteries,” J. Xiao, X. Yu, J. Zheng, Y. Zhou, F. Gao, X. Chen, J. Bai, X.-Q. Yang, J.G. Zhang, J. Power Sources (2013), 242, 736.
  • “Origin of additional capacities in metal oxide lithium-ion battery electrodes,” Y.Y. Hu, Z.G. Liu, K.W. Nam, O.J. Borkiewicz, J. Cheng, X. Hua, M.T. Dunstan, X. Yu, K.M. Wiaderek, L.S. Du, K.W. Chapman, P.J. Chupas, X.-Q. Yang, C.P. Grey, Nature Mater. (2013), 12, 1130.

2012

  • "α-MnO2 as a cathode material for rechargeable Mg batteries," R. Zhang, X. Yu, K.W. Nam, C. Ling, T.S. Arthur, W. Song, A. Knapp, S.N. Ehrlich, X.-Q. Yang, M. Matsui, Electrochem. Commun. (2012), 23, 110.
  • “Anomalous pseudocapacitive behavior of a nanostructured, mixed-valent manganese oxide film for electrical energy storage,” M.K. Song, S. Cheng, H. Chen, W. Qin, K.W. Nam, S. Xu, X.-Q. Yang, A. Bongiorno, J. Lee, J. Bai, T. A. Tyson, J. Cho, M. Liu, Nano Lett. (2012), 12, 3483.
  • “Energy storage in composites of a redox couple host and a lithium ion host,” S.W. Kim, K.W. Nam, D.H. Seo, J. Hong, H. Kim, H. Gwon, K. Kang, Nano Today (2012), 7, 168.
  • “Structural study of the coating effect on the thermal stability of charged MgO-coated LiNi0.8Co0.2O2 cathodes investigated by in situ XRD,” W.S. Yoon, K.W. Nam, D. Jang, K.Y. Chung, J. Hanson, J.M. Chen, X.-Q. Yang, J Power Sources (2012), 217, 128.
  • “Electrochemical decomposition of Li2CO3 in NiO–Li2CO3 nanocomposite thin film and powder electrodes,” R. Wang, X. Yu, J. Bai, H. Li, X. Huang, L. Chen, X.-Q. Yang, J Power Sources (2012), 217, 113.
  • “Emerging applications of atomic layer deposition for lithium-ion battery studies,” X. Meng, X.-Q. Yang, X. Sun, Adv. Mater. (2013), 24, 3589.
  • “Degradation and (de)lithiation processes in the high capacity battery material LiFeBO3,” S.H. Bo, F. Wang, Y. Janssen, D. Zeng, K.W. Nam, W. Xu, L. Du, P. Stephens, J. Graetz, X.-Q. Yang, Y. Zhu, J. Praise, C.P. Grey, P. Khalifah, J. Mater. Chem. (2012), 22, 8799.
  • “Influence of the evolution of two tetragonal phases on the capacity fade of LiMn1.5Ni0.5O4-δ for the high energy application,” E.S. Lee, K.W. Nam, E. Hu, A. Manthiram, Chem. Mater. (2012), 24, 3610.
  • “High rate delithiation behaviour of LiFePO4 studied by quick X-ray absorption spectroscopy,” X. Yu, Q. Wang, Y. Zhou, H. Li, X.-Q. Yang, K.W. Nam, S.N. Ehrlich, S. Khalid, Y.S. Meng, Chem. Commun. (2012), 48, 11537.
  • "Enhanced Li+ ion transport in LiNi0.5Mn1.5O4 through control of site disorder," J. Zheng, J. Xiao, X. Yu, L. Kovarik, M. Gu, F. Omenya, X. Chen, X.-Q. Yang, J. Liu, G.L. Graff, M.S. Whittingham, J.G. Zhang, Phys. Chem. Chem. Phys. (2012), 14, 13515.

2011

  • “Increased discharge capacity of a Li-air activated carbon cathode produced by preventing carbon surface passivation,” C. Tran, J. Kafle, X.-Q. Yang, D. Qu, Carbon (2011), 49, 1266.
  • “High rate oxygen reduction in non-aqueous electrolytes with the addition of perfluorinated additives,” Y. Wang, D. Zheng, X.-Q. Yang, D. Qu, Energy Environ. Sci. (2011), 4, 3697.
  • “Comparative studies on C-coated and uncoated LiFePO4 cycling at various rates and temperatures using synchrotron based in situ X-ray diffraction,” H.C. Shin, K.W. Nam, W.Y. Chang, B.W. Cho, W.S. Yoon, X.-Q. Yang, K.Y. Chung, Electrochimica Acta (2011), 56, 1182.
  • “Electrochemical investigation of Al–Li/LixFePO4 cells in oligo(ethylene glycol) dimethyl ether/LiPF6,” X. Wang, Y. Zhou, H.S. Lee, K.W. Nam, X.-Q. Yang, O. Haas, J. Appl. Electrochem. (2011), 41, 241.
  • “Electrochemical investigation of Al–Li anode in oligo(ethylene glycol) dimethyl ether/LiPF6,” Y. Zhou, X. Wang, H. Lee, K.W. Nam, X.-Q. Yang, O. Haas, J. Appl. Electrochem. (2011), 41, 271.
  • “Structural evolution and related thermal instability of overcharged LiNi0.8Co0.15Al0.05O2 and LiNi1/3Co1/3Mn1/3O2 layered cathodes for Li-ion batteries,” L. Wu, K.W. Nam, X. Wang, Y. Zhou, J.C. Zheng, X.-Q. Yang, Y.M. Zhu, Chem. Mater. (2011), 23, 3953.
  • "New in-situ synchrotron X-ray diffraction technique to study the chemical delithiation of LiFePO4," X. Wang, H.Y. Chen, X. Yu, L. Wu, K.W. Nam, J. Bai, H. Li, X. Huang, X.-Q. Yang, Chem. Commun. (2011), 47, 7170.
  • "Investigation of the structural changes in Li1-xFePO4 upon chargingby synchrotron radiation techniques," X. Wang, C. Jaye, K.W. Nam, B. Zhang, H.Y. Chen, J. Bai, H. Li, X. Huang, D.A. Fischer, X.-Q. Yang, J. Mater. Chem. (2011), 21, 11406.
  • “Electrochemically induced high capacity displacement reaction of PEO/MoS2/graphene nanocomposites with lithium,” J. Xiao, X. Wang, X.-Q. Yang, S. Xun, G. Liu, P.K. Koech, J. Liu, J.P. Lemmon, Adv. Funct. Mater. (2011), 21, 2840.
  • “Formation of an SEI on a LiMn2O4 cathode during room temperature charge–discharge cycling studied by soft X-ray absorption spectroscopy at the Fluorine K-edge,” K.Y. Chung, W.S. Yoon, K.B. Kim, B.W. Cho, X.-Q. Yang, J. Appl. Electrochem. (2011), 41, 1295.
  • “Can vanadium be substituted into LiFePO4?,” F. Omenya, N.A. Chernova, S. Upreti, P.Y. Zavalij, K.-W. Nam, X.-Q. Yang, M.S. Whittingham, Chem. Mater. (2011), 23, 4733.
  • "Spinel LiMn2O4/reduced graphene oxide hybrid for high rate lithium ion batteries," S. Bak, K.W. Nam, C.W. Lee, K.H. Kim, H.C. Jung, X.-Q. Yang, K.B. Kim, J. Mater. Chem. (2011), 21, 17309.
  • “Amorphous hierarchical porous GeOx as high-capacity anodes for Li Ion batteries with very long cycling life,” X.L. Wang, W.Q. Han, H.Y. Chen, J. Bai, T.A. Tyson, X. Yu, X. Wang, X.-Q. Yang, J. Am. Chem. Soc. (2011), 133, 20692.
  • “High-rate oxygen reduction in mixed nonaqueous electrolyte containing acetonitrile,” D. Zheng, X.-Q. Yang, D. Qu, Chem. An Asian J. (2011), 6, 3306.
  • “The Kinetic effect of structural behavior of mixed LiMn2O4-LiNi1/3Co1/3Mn1/3O2 cathode materials studied by time-resolved X-ray diffraction technique,” W.S. Yoon, K.W. Nam, D. Jang, K.Y. Chung, S. Choi, X.-Q. Yang, Electrochem. Commun. (2012), 15, 74.