M. Stanley Whittingham
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Nobel laureate in chemistry & American chemist
M. Stanley Whittingham's AcademicInfluence.com Rankings
M. Stanley Whittinghamchemistry Degrees
Chemistry
#125
World Rank
#293
Historical Rank
#61
USA Rank
Physical Chemistry
#76
World Rank
#95
Historical Rank
#30
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Chemistry
M. Stanley Whittingham's Degrees
- Bachelors Chemistry Newcastle University
Why Is M. Stanley Whittingham Influential?
(Suggest an Edit or Addition)According to Wikipedia, Michael Stanley Whittingham is a British-American chemist. He is a professor of chemistry and director of both the Institute for Materials Research and the Materials Science and Engineering program at Binghamton University, State University of New York. He also serves as director of the Northeastern Center for Chemical Energy Storage of the U.S. Department of Energy at Binghamton. He was awarded the Nobel Prize in Chemistry in 2019 alongside Akira Yoshino and John B. Goodenough.
M. Stanley Whittingham's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Lithium batteries and cathode materials. (2004) (5089)
- Pathways for practical high-energy long-cycling lithium metal batteries (2019) (1388)
- Electrical Energy Storage and Intercalation Chemistry (1976) (1308)
- Chemistry of intercalation compounds: Metal guests in chalcogenide hosts (1979) (1103)
- Ultimate limits to intercalation reactions for lithium batteries. (2014) (805)
- Lithium–oxygen batteries: bridging mechanistic understanding and battery performance (2013) (771)
- Layered vanadium and molybdenum oxides: batteries and electrochromics (2009) (715)
- Solid State Electrochemistry (1997) (667)
- History, Evolution, and Future Status of Energy Storage (2012) (594)
- The Role of Ternary Phases in Cathode Reactions (1976) (584)
- Materials Challenges Facing Electrical Energy Storage (2008) (569)
- Hydrothermal synthesis of lithium iron phosphate cathodes (2001) (482)
- Conversion reaction mechanisms in lithium ion batteries: study of the binary metal fluoride electrodes. (2011) (449)
- High‐Performance LiNi0.5Mn1.5O4 Spinel Controlled by Mn3+ Concentration and Site Disorder (2012) (407)
- Narrowing the Gap between Theoretical and Practical Capacities in Li‐Ion Layered Oxide Cathode Materials (2017) (354)
- High-energy lithium metal pouch cells with limited anode swelling and long stable cycles (2019) (338)
- Reactivity, stability and electrochemical behavior of lithium iron phosphates (2002) (310)
- Hydrothermal Synthesis of Vanadium Oxides (1998) (303)
- Hydrothermal synthesis of lithium iron phosphate (2006) (298)
- Understanding and applying coulombic efficiency in lithium metal batteries (2020) (297)
- The lithium intercalates of the transition metal dichalcogenides (1975) (282)
- Measurement of Sodium Ion Transport in Beta Alumina Using Reversible Solid Electrodes (1971) (279)
- The hydrothermal synthesis and characterization of olivines and related compounds for electrochemical applications (2008) (274)
- Some transition metal (oxy)phosphates and vanadium oxides for lithium batteries (2005) (264)
- Critical Parameters for Evaluating Coin Cells and Pouch Cells of Rechargeable Li-Metal Batteries (2019) (245)
- The synthesis, characterization and electrochemical behavior of the layered LiNi0.4Mn0.4Co0.2O2 compound (2004) (234)
- Composition-structure relationships in the Li-ion battery electrode material LiNi(0.5)Mn(1.5)O(4). (2012) (191)
- Introduction: batteries and fuel cells. (2004) (164)
- Effect of Al2O3 Coating on Stabilizing LiNi0.4Mn0.4Co0.2O2 Cathodes (2015) (162)
- Enhanced Li+ ion transport in LiNi0.5Mn1.5O4 through control of site disorder. (2012) (156)
- New iron(III) phosphate phases: crystal structure and electrochemical and magnetic properties. (2002) (151)
- Crystal Structure and Chemical Bonding in Inorganic Chemistry (1976) (149)
- Hydrothermal synthesis of cathode materials (2007) (148)
- Manganese Vanadium Oxide Nanotubes: Synthesis, Characterization, and Electrochemistry (2001) (145)
- Hydrothermal Synthesis and Characterization of KxMnO2·yH2O (1996) (126)
- Balancing interfacial reactions to achieve long cycle life in high-energy lithium metal batteries (2021) (125)
- Surface-to-volume ratio, charge density, nuclear magnetic relaxation, and permeability in clay-bearing sandstones (1990) (123)
- Transport Properties of Silver Beta Alumina (1971) (123)
- n‐Butyllithium—An Effective, General Cathode Screening Agent (1977) (122)
- Iron and Manganese Pyrophosphates as Cathodes for Lithium-Ion Batteries (2011) (120)
- Characterization of Amorphous and Crystalline Tin–Cobalt Anodes (2007) (116)
- Electrospun nano-vanadium pentoxide cathode (2009) (116)
- Temperature-dependent properties of FePO4 cathode materials (2002) (114)
- Electrospun Manganese Oxide Nanofibers as Anodes for Lithium-Ion Batteries (2007) (106)
- Structural and electrochemical behavior of LiMn0.4Ni0.4Co0.2O2 (2007) (106)
- Layered LixNiyMnyCo1-2yO2 Cathodes for Lithium Ion Batteries: Understanding Local Structure via Magnetic Properties (2007) (106)
- Layered Mixed Transition Metal Oxide Cathodes with Reduced Cobalt Content for Lithium Ion Batteries (2008) (105)
- Can Vanadium Be Substituted into LiFePO4 (2011) (105)
- Spin-transfer pathways in paramagnetic lithium transition-metal phosphates from combined broadband isotropic solid-state MAS NMR spectroscopy and DFT calculations. (2012) (103)
- Transition metal phosphorus trisulfides as battery cathodes (1977) (102)
- Nanotechnology for environmentally sustainable electromobility. (2016) (102)
- Performance of LiFePO4 as lithium battery cathode and comparison with manganese and vanadium oxides (2003) (100)
- Mechanism of Reduction of the Fluorographite Cathode (1975) (99)
- Inorganic nanomaterials for batteries. (2008) (99)
- What Limits the Capacity of Layered Oxide Cathodes in Lithium Batteries? (2019) (99)
- Energy and environmental aspects in recycling lithium-ion batteries: Concept of Battery Identity Global Passport (2020) (98)
- The hydrothermal synthesis of new oxide materials (1995) (95)
- Novel Tungsten, Molybdenum, and Vanadium Oxides Containing Surfactant Ions (1996) (93)
- Chemistry of High-Temperature Superconductors (1987) (93)
- Vanadium Modified LiFePO4 Cathode for Li-Ion Batteries (2009) (91)
- An NMR study of the alkali metal intercalation phase LixTiS2: Relation to structure, thermodynamics, and ionicity (1976) (91)
- Hydrothermal synthesis of transition metal oxides under mild conditions (1996) (87)
- What can we learn about battery materials from their magnetic properties (2011) (85)
- Rock-Salt Growth-Induced (003) Cracking in a Layered Positive Electrode for Li-Ion Batteries (2017) (85)
- Challenges and Development of Tin-Based Anode with High Volumetric Capacity for Li-Ion Batteries (2020) (84)
- Li-Nb-O coating/substitution enhances the electrochemical performance of LiNi0.8Mn0.1Co0.1O2 (NMC 811) Cathode. (2019) (84)
- The role of tetraethyl ammonium hydroxide on the phase determination and electrical properties of γ-MnOOH synthesized by hydrothermal (2001) (82)
- Quantifying the Capacity Contributions during Activation of Li2MnO3 (2020) (82)
- Intercalation chemistry and energy storage (1979) (80)
- Structure beyond Bragg: Study ofV2O5nanotubes (2004) (78)
- Molten Salts—Characterization and Analysis (1971) (78)
- Amorphous molybdenum trisulfide: A new lithium battery cathode (1979) (78)
- Extremely Durable High‐Rate Capability of a LiNi0.4Mn0.4Co0.2O2 Cathode Enabled with Single‐Walled Carbon Nanotubes (2011) (76)
- Can Multielectron Intercalation Reactions Be the Basis of Next Generation Batteries? (2018) (76)
- Anodes for lithium batteries: tin revisited (2003) (75)
- ε-VOPO4: Electrochemical Synthesis and Enhanced Cathode Behavior (2005) (73)
- How Molecules Turn into Solids: the Case of Self-Assembled Metal−Organic Frameworks (2006) (72)
- Comparative Study of the Capacity and Rate Capability of LiNi y Mn y Co1–2y O2 (y = 0.5, 0.45, 0.4, 0.33) (2011) (71)
- Thermal Stability and Reactivity of Cathode Materials for Li-Ion Batteries. (2016) (71)
- Cathodic Behavior of Alkali Manganese Oxides from Permanganate (1997) (69)
- Science and applications of mixed conductors for lithium batteries. (2000) (67)
- Effects of Pulse Plating on lithium electrodeposition, morphology and cycling efficiency (2014) (67)
- Elucidating the Nature of Pseudo Jahn–Teller Distortions in LixMnPO4: Combining Density Functional Theory with Soft and Hard X-ray Spectroscopy (2013) (67)
- Stability and Rate Capability of Al Substituted Lithium-Rich High-Manganese Content Oxide Materials for Li-Ion Batteries (2011) (65)
- Identifying the Distribution of Al3+ in LiNi0.8Co0.15Al0.05O2 (2016) (65)
- Cobalt complex as building blocks: synthesis, characterization, and catalytic applications of {Cd2+-Co3+-Cd2+} and {Hg2+-Co3+-Hg2+} heterobimetallic complexes. (2009) (63)
- Synthesis of novel compounds with the pyrochlore and hexagonal tungsten bronze structures (1992) (63)
- Metastable Hexagonal Molybdates: Hydrothermal Preparation, Structure, and Reactivity (1995) (62)
- Tungsten based electrocatalyst for fuel cell applications (2007) (61)
- An organic coprecipitation route to synthesize high voltage LiNi0.5Mn1.5O4. (2013) (61)
- Thermodynamics, Kinetics and Structural Evolution of ε-LiVOPO4 over Multiple Lithium Intercalation (2016) (59)
- Hydrothermal synthesis of sodium tungstates (1990) (59)
- 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. (2013) (58)
- Formation of stoichiometric titanium disulfide (1981) (57)
- Lithium incorporation in tungsten oxides (1980) (57)
- Influence of Manganese Content on the Performance of LiNi0.9−yMnyCo0.1O2 (0.45 ≤ y ≤ 0.60) as a Cathode Material for Li-Ion Batteries† (2010) (57)
- Amorphous Molybdenum Disulfide Cathodes (1979) (56)
- Crystal structure of cobalt molybdate hydrate CoMoO4·nH2O (2005) (56)
- Why Substitution Enhances the Reactivity of LiFePO4 (2013) (56)
- The electrochemical characteristics of VSe2 in lithium cells (1978) (55)
- Lithium Batteries: 50 Years of Advances to Address the Next 20 Years of Climate Issues. (2020) (55)
- The one dimensional chain structures of vanadyl glycolate and vanadyl acetateElectronic supplementary information (ESI) available: difference plots and reflections lists for VO(CH3COO)2 and VO(OCH2CH2O). See http://www.rsc.org/suppdata/jm/b2/b208100h/ (2003) (55)
- The Structural and Electrochemical Impact of Li and Fe Site Substitution in LiFePO4 (2013) (53)
- Layered Oxide Cathodes for Li-Ion Batteries: Oxygen Loss and Vacancy Evolution (2019) (53)
- Oxygen and transition metal involvement in the charge compensation mechanism of LiNi1/3Mn1/3Co1/3O2 cathodes (2012) (53)
- What is the Role of Nb in Nickel-Rich Layered Oxide Cathodes for Lithium-Ion Batteries? (2021) (53)
- The hydrated intercalation complexes of the layered disulfides (1974) (52)
- Hydrogen motion in oxides: from insulators to bronzes (2004) (51)
- Structural studies of the intercalation complexes titanium sulfide-ammonia (TiS2.NH3) and tantalum sulfide-ammonia (TaS2.NH3) (1975) (51)
- Vaper Phase Polymerized PEDOT/Cellulose Paper Composite for Flexible Solid-State Supercapacitor (2020) (50)
- Structure Stabilization by Mixed Anions in Oxyfluoride Cathodes for High-Energy Lithium Batteries. (2015) (49)
- Tuning the Activity of Oxygen in LiNi0.8Co0.15Al0.05O2 Battery Electrodes. (2016) (49)
- The physical properties of the NaxTiS2 intercalation compounds: A synthetic and NMR study (1976) (49)
- Atomic Insight into the Layered/Spinel Phase Transformation in Charged LiNi0.80Co0.15Al0.05O2 Cathode Particles (2017) (48)
- Intercalation and lattice expansion in titanium disulfide (1975) (47)
- Hexagonal tungsten trioxide and its intercalation chemistry (1981) (47)
- Electrochemical performance of Al–Si–graphite composite as anode for lithium–ion batteries (2011) (47)
- Synthesis, crystal structure, and structural conversion of Ni molybdate hydrate NiMoO4·nH2O (2010) (46)
- Structure and Electrochemistry of Vanadium-Modified LiFePO4 (2012) (46)
- Insertion electrodes as SMART materials: the first 25 years and future promises (2000) (46)
- Synthesis, Crystal Structure, and Electrochemical and Magnetic Study of New Iron (III) Hydroxyl-Phosphates, Isostructural with Lipscombite (2005) (45)
- Electrical Properties of the Layered Manganese Dioxides M x Mn1 − y Co y O 2, M = Na , K (1999) (45)
- Evidence for Decavanadate Clusters in the Lamellar Surfactant Ion Phase (1997) (45)
- Electrointercalation in transition-metal disulphides (1974) (45)
- Hierarchical nickel valence gradient stabilizes high-nickel content layered cathode materials (2021) (44)
- Mechanism of fast ion transport in solids (1975) (43)
- Hydrothermal synthesis and characterization of “LixV2 − δO4 − δH2O” (1996) (43)
- Manganese dioxides as cathodes for lithium rechargeable cells: the stability challenge (2000) (43)
- The hydrothermal synthesis of sodium manganese oxide and a lithium vanadium oxide (1996) (43)
- Solid State Chemistry of Energy Conversion and Storage (1977) (42)
- High performance Si/MgO/graphite composite as the anode for lithium-ion batteries (2011) (42)
- Effect of sheet distance on the optical properties of vanadate nanotubes (2004) (41)
- Wideline NMR studies of ammonia intercalation complexes. I. TaS2 (NH3) and TiS2 (NH3) (1976) (41)
- Free Energy of Formation of Sodium Tungsten Bronzes, Na x WO 3 (1975) (41)
- Nanoscale alloying effect of gold–platinum nanoparticles as cathode catalysts on the performance of a rechargeable lithium–oxygen battery (2012) (40)
- Towards understanding the rate capability of layered transition metal oxides LiNiyMnyCo1−2yO2 (2014) (40)
- A high-performance oxygen evolution catalyst in neutral-pH for sunlight-driven CO2 reduction (2019) (39)
- Structures of potassium, sodium and lithium bis(oxalato)borate salts from powder diffraction data. (2003) (39)
- Interfacial Effects in ε-LixVOPO4 and Evolution of the Electronic Structure (2015) (37)
- Electrochemical Behavior of the Amorphous Tin–Cobalt Anode (2010) (37)
- Hydrothermal synthesis of iron and zinc double vanadium oxddes using the tetramethyl ammonium ion (1997) (37)
- Synthesis of vanadium oxide nanofibers and tubes using polylactide fibers as template (2005) (36)
- Formation of an Anti-Core–Shell Structure in Layered Oxide Cathodes for Li-Ion Batteries (2017) (36)
- Electrochemical Behavior of Nanostructured ɛ-VOPO4 over Two Redox Plateaus (2013) (35)
- Comparison of the polymorphs of VOPO4 as multi-electron cathodes for rechargeable alkali-ion batteries (2017) (35)
- A New Vanadium Dioxide Cathode (1996) (35)
- Identifying the chemical and structural irreversibility in LiNi0.8Co0.15Al0.05O2 – a model compound for classical layered intercalation (2018) (34)
- Hydrothermal synthesis and electrochemistry of a δ-type manganese vanadium oxide (2000) (34)
- Molybdenum Substituted Vanadyl Phosphate ε-VOPO4 with Enhanced Two-Electron Transfer Reversibility and Kinetics for Lithium-Ion Batteries (2016) (34)
- Keggin cluster formation by hydrothermal reaction of tungsten trioxide with methyl substituted ammonium : The crystal structure of two novel compounds, [NH2(CH3)2]6H2W12O40.∼4H2O and [N(CH3)4]6H2W12O40.2H2O (1996) (34)
- A New Zinc Pyrovanadate, Zn3(OH)2V2O7.2H2O, from X‐ray Powder Data (1997) (34)
- Pushing the limit of 3d transition metal-based layered oxides that use both cation and anion redox for energy storage (2022) (34)
- Inorganic phosphate materials: Materials Science Monographs # 52. Edited by T. Kanazawa, Elsevier Science Publishers, Amsterdam (1989) 304 pages Dfl. 240.00 ($126.25) (1990) (33)
- NMe4V3O7: critical role of pH inhydrothermal synthesis of vanadium oxides (1997) (33)
- KVOPO4: A New High Capacity Multielectron Na‐Ion Battery Cathode (2018) (33)
- Good Practices for Rechargeable Lithium Metal Batteries (2020) (32)
- Synthesis and properties of the polyanisidines (2001) (32)
- How Bulk Sensitive is Hard X-ray Photoelectron Spectroscopy: Accounting for the Cathode-Electrolyte Interface when Addressing Oxygen Redox. (2020) (32)
- Hydrothermal synthesis of electrode materials pyrochlore tungsten trioxide film (1995) (32)
- Enabling multi-electron reaction of ε-VOPO4 to reach theoretical capacity for lithium-ion batteries. (2018) (32)
- Crystal structure of tetramethylammonium tetravanadium decaoxide, N(CH3)4V4O10 (1996) (31)
- Nanoscale single-crystal vanadium oxides with layered structure by electrospinning and hydrothermal methods (2008) (31)
- Copper pyrazole directed crystallization of decavanadates: synthesis and characterization of {Cu(pz)}4[{Cu(pz)3}2V10O28] and (Hpz)2[{Cu(pz)4}2V10O28]·2H2O (2009) (31)
- Oxygen Loss in Layered Oxide Cathodes for Li-Ion Batteries: Mechanisms, Effects, and Mitigation. (2022) (31)
- Thermodynamics of Antisite Defects in Layered NMC Cathodes: Systematic Insights from High-Precision Powder Diffraction Analyses (2019) (31)
- Crystal Structure, Physical Properties, and Electrochemistry of Copper Substituted LiFePO4 Single Crystals (2012) (30)
- The electrochemical behaviour of TTF in Li-O2 batteries using a TEGDME-based electrolyte. (2016) (30)
- 1 – Intercalation Chemistry: An Introduction (1982) (30)
- Special Editorial Perspective: Beyond Li-Ion Battery Chemistry. (2020) (29)
- Electrochemical performances of LiMnPO4 synthesized from non-stoichiometric Li/Mn ratio. (2011) (29)
- Lithium incorporation in crystalline and amorphous chalcogenides: Thermodynamics, mechanism and structure (1981) (29)
- Structure beyond Bragg : Study of V 2 O 5 nanotubes (2004) (28)
- The Anode Challenge for Lithium‐Ion Batteries: A Mechanochemically Synthesized Sn–Fe–C Composite Anode Surpasses Graphitic Carbon (2016) (28)
- Mg Substitution Clarifies the Reaction Mechanism of Olivine LiFePO4 (2015) (28)
- Layered Molybdenum (Oxy)Pyrophosphate as Cathode for Lithium-Ion Batteries (2013) (27)
- Synthesis and characterization of a pipe-structure manganese vanadium oxide by hydrothermal reaction (1999) (27)
- Cytotoxicity of nanostructured vanadium oxide on human cells in vitro. (2010) (27)
- Layered compounds and intercalation chemistry: An example of chemistry and diffusion in solids (1980) (27)
- The zinc–vanadium–oxygen–water system: hydrothermal synthesis and characterization (2002) (27)
- Structural chemistry of new lithium bis(oxalato)borate solvates. (2004) (26)
- The nanostructure of the Si–Al eutectic and its use in lithium batteries (2013) (25)
- Correlating Lithium Hydroxyl Accumulation with Capacity Retention in V2O5 Aerogel Cathodes. (2016) (25)
- Structural study of ammonium metatungstate (2008) (25)
- Hydrothermal Synthesis of a New Molybdate with a Layered Structure, (NMe4)Mo4-.delta.O12 (1994) (24)
- Synthesis and characterization of a new vanadium oxide, TMAV8 O20 (1997) (24)
- Structure-inheriting solid-state reactions under hydrothermal conditions (2006) (24)
- Rietveld analysis of sodium tungstate hydrate NaxWO3+x/2.cntdot.yH2O, which has the hexagonal tungsten bronze structure (1992) (24)
- Lithium Closoboranes as Electrolytes in Solid Cathode Lithium Cells (1980) (23)
- The intercalation and hydrothermal chemistry of solid electrodes (1997) (23)
- Electrochemical Performance of Nanosized Disordered LiVOPO4 (2018) (23)
- ε- and β-LiVOPO4: Phase Transformation and Electrochemistry. (2017) (23)
- Open structure tungstates : synthesis, reactivity and ionic mobility (1992) (23)
- Tin-Iron Based Nano-Materials as Anodes for Li-Ion Batteries (2011) (22)
- A β-VOPO4/ε-VOPO4 composite Li-ion battery cathode (2014) (22)
- Solitary excitations and domain-wall movement in the two-dimensional canted antiferromagnet (C2N2H10)1/2FePO4(OH) (2004) (22)
- Synthesis and Characterization of a New Layered Ethylene-Diammonium Manganese(II) Phosphate, (C2N2H10)Mn2(PO4)2·2H2O (2003) (22)
- K2Mo4O13 phases prepared by hydrothermal synthesis (2004) (21)
- Structure Evolution and Thermal Stability of High-Energy- Density Li-Ion Battery Cathode Li2VO2F (2017) (21)
- Morphology, composition and electrochemistry of a nano-porous silicon versus bulk silicon anode for lithium-ion batteries (2017) (20)
- Tungsten Oxides and Bronzes: Synthesis, Diffusion and Reactivity (1993) (20)
- Understanding the stability of MnPO4 (2014) (20)
- A high-performance solid-state synthesized LiVOPO4 for lithium-ion batteries (2019) (19)
- Li3Mo4P5O24: A Two-Electron Cathode for Lithium-Ion Batteries with Three-Dimensional Diffusion Pathways (2016) (19)
- New Iron Sulfur Cathodes for Nonaqueous Lithium Batteries (1979) (19)
- Uniform second Li ion intercalation in solid state ϵ-LiVOPO4 (2016) (19)
- Pinned low-energy electronic excitation in metal-exchanged vanadium oxide nanoscrolls. (2007) (19)
- Solid Electrolytes: Advances in Science and Technology. (2000) (19)
- Nanocrystal Conversion-Assisted Design of Sn–Fe Alloy with a Core–Shell Structure as High-Performance Anodes for Lithium-Ion Batteries (2019) (19)
- The hydrothermal synthesis of the new manganese and vanadium oxides, NiMnO3H, MAV3O7 and MA0.75V4O10·0.67H2O (MA=CH3NH3) (1999) (19)
- An NMR study of ionic motion in ammonium tungsten bronze (1972) (18)
- Intrinsic Challenges to the Electrochemical Reversibility of the High Energy Density Copper(II) Fluoride Cathode Material (2019) (18)
- Facile synthesis and electrochemical performance of the nanoscaled FePy anode (2014) (18)
- Synthesis and characterization of layered and scrolled amine-templated vanadium oxides (2008) (18)
- Alkali intercalation compounds of vanadium and chromium sulfides: An NMR study (1977) (18)
- Preparation and Characterization of a MoO3 with Hexagonal Structure. (1995) (18)
- Structure and bonding in the pyridine intercalates of tantalum disulfide (1978) (17)
- Role of disorder in limiting the true multi-electron redox in ε-LiVOPO4 (2018) (17)
- Vanadyl Phosphates AxVOPO4 (A = Li, Na, K) as Multielectron Cathodes for Alkali‐Ion Batteries (2020) (17)
- Structure, defects and thermal stability of delithiated olivine phosphates (2011) (17)
- Rational synthesis and electrochemical performance of LiVOPO4 polymorphs (2019) (16)
- An NMR study of ionic motion in ammonium ferrocyanide (1972) (16)
- Lithium–titanium disulfide rechargeable cell performance after 35 years of storage (2015) (16)
- Hydrothermal synthesis and electrochemistry of a manganese vanadium oxide, γ-MnV2O5 (1999) (16)
- Materials science in energy technology (1979) (15)
- Systematic Evaluation of Carbon Hosts for High-Energy Rechargeable Lithium-Metal Batteries (2021) (15)
- What Happens to LiMnPO4 upon Chemical Delithiation? (2016) (15)
- Scientific Background on the Nobel Prize in Chemistry 2019-Lithium-ion batteries (2010) (15)
- Sodium ion conduction in single crystal vermiculite (1987) (15)
- MoV–MoVIcationic ordering in the layered molybdate (C2H10N2)[Mo4O12] (1998) (15)
- APPLICATIONS OF INTERCALATION COMPOUNDS (1979) (14)
- Hydrothermal synthesis of copper coordination polymers based on molybdates: Chemistry issues (2006) (13)
- The first example of a novel one-dimensional cyclic tetrameric metavanadate: [PPh4]2V4O11 (2002) (13)
- Whither Mn Oxidation in Mn-Rich Alkali-Excess Cathodes? (2021) (13)
- Fundamental Linkage Between Structure, Electrochemical Properties, and Chemical Compositions of LiNi1-x-yMnxCoyO2 Cathode Materials. (2021) (13)
- Electrochemistry of the Layered Manganese Dioxides: A x Mn1 − y ( Co , Ni , Fe ) y O 2 ( A = Li , K ) Rate Effects (1999) (13)
- Structural Changes in a High-Energy Density VO2F Cathode upon Heating and Li Cycling (2018) (12)
- Selected topics in high temperature chemistry. Defect chemistry of solids: (Studies in Inorganic Chemistry #9) Edited by O. Johannesen and A. G. Andersen, Elsevier Science Publishers, Amsterdam and New York (1989) 392 pages Dfl. 290.00 ($141.50) (1990) (12)
- Electrochemical Characterization and Microstructure Evolution of Ni-Rich Layered Cathode Materials by Niobium Coating/Substitution (2022) (11)
- Hydrothermal synthesis and characterization of a series of novel zinc vanadium oxides as cathode materials (1997) (11)
- Hydrothermal Synthesis of the Blue Potassium Molybdenum Bronze, K0.28MoO3 (2002) (11)
- Synthesis, crystal structures and magnetic properties of organically templated new layered vanadates: [C4H8NH2]V3O7, [(CH3)2NH2]V3O7, [C5H10NH2]V3O7 and [C2H5NH3]V3O7 (2004) (11)
- The iron cyanide bronzes (1972) (11)
- Extending the limits of powder diffraction analysis: Diffraction parameter space, occupancy defects, and atomic form factors. (2018) (11)
- Hydrothermal synthesis of potassium molybdenum oxide bronzes: structure-inheriting solid-state route to blue bronze and dissolution/deposition route to red bronze (2005) (11)
- Nonstoichiometry and Defects in Hydrothermally Synthesized ε-LiVOPO4 (2019) (10)
- Reaction Mechanism of the Sn2Fe Anode in Lithium-Ion Batteries (2019) (10)
- Superparamagnetic behavior in a Ni vermiculite intercalation compound (2001) (10)
- Formation of magnetic clusters in the strongly frustrated hollandite vanadium oxide V 7.22 O 8 (OH) 8 Cl 0.77 (H 3 O) 2.34 (2007) (10)
- Transport properties of the mineral vermiculite (1989) (10)
- LOW-TEMPERATURE HYDROTHERMAL REDUCTION OF AMMONIUM PARATUNGSTATE (1991) (10)
- Evolution of lithium ordering with (de)-lithiation in β-LiVOPO4: insights through solid-state NMR and first principles DFT calculations (2020) (9)
- Structural insight into the different reactivities towards ligand S-ethylation with iodoethane of the tetrahedral zinc(II) complexes of 1,1,5,5-tetramethyl-2-thiobiuret and 1,1,5,5-tetramethyl-2,4-dithiobiuret (2004) (9)
- Battery revolution to evolution (2019) (9)
- Vaporization thermodynamics and heat capacities of Cr3Ge and Cr5Ge3 (2001) (9)
- Structure of Hydrated Tungsten Peroxides [WO2(O2)H2O]×nH2O. (1998) (8)
- Hydrothermal synthesis and characterization of a new aluminium vanadium oxide hydroxide Al2(OH)3(VO4) (1998) (8)
- Control of the structure and properties of vanadium and manganese oxides through tailored soft synthesis (2001) (8)
- Tetrakis(tetramethylammonium) Dihydrogendecavanadate Acetic Acid 2.8-Hydrate, [N(CH3)4]4[H2V10O28].CH3COOH.2.8H2O (1998) (7)
- Solvothermal synthesis and characterization of a layered pyridinium vanadate, (C5H6N)V3O7 (2003) (7)
- Layered Tetramethylammonium Vanadium Oxide [N(CH3)4]V3O7 by X‐ray Rietveld Refinement (1997) (7)
- A Mixed Rate Cathode for Lithium Batteries (1981) (7)
- Mixed Conductors: Synthesis, Properties, Applications (1989) (7)
- Preparation and characterization of lithium, manganese, cobalt and copper vermiculites (1991) (7)
- Li2Sn(OH)6 (2001) (6)
- Comparison of one-, two-, and three-dimensional iron phosphates containing ethylenediamine (2003) (6)
- ε‐VOPO4: Electrochemical Synthesis and Enhanced Cathode Behavior. (2005) (6)
- Corrigendum: Nanotechnology for environmentally sustainable electromobility. (2017) (6)
- A New Decavanadate with Mixed Cations, [Li(H2O)4]2[N(CH3)4]4[V10O28].4H2O (1997) (6)
- Conditioning the Surface and Bulk of High-Nickel Cathodes with a Nb Coating: An In Situ X-ray Study. (2021) (6)
- The Computer as a Materials Science Benchmark (1998) (6)
- Ion Transport in Single Crystals of the Clay-Like Aluminosilicate, Vermiculite (1990) (6)
- The ionic conductivity of hydrogen vermiculite (1991) (6)
- Nuclear Magnetic Resonance Linewidth of Thallium Tungsten Bronze (1970) (6)
- Two novel open-framework zinc phosphates: (CH3NH3)Zn4(PO4)3 and (CH3NH3)2Zn5(PO4)4 (2003) (6)
- Electrode Reaction Mechanism of Ag2VO2PO4 Cathode (2016) (6)
- Single-Phase Lithiation and Delithiation of Simferite Compounds Li(Mg,Mn,Fe)PO4 (2014) (6)
- A New Zinc Pyrovanadate, Zn3 (OH)2V2O7×2H2O, from X‐Ray Powder Data. (1998) (5)
- Fundamentals of Materials for Energy and Environmental Sustainability: Electrochemical energy storage: batteries and capacitors (2011) (5)
- The Syntheses and Characterization of Layered LiNi 1-y-z Mn y Co z O 2 Compounds (2002) (5)
- Microwave-assisted solvothermal synthesis of LiVyM1−yOPO4 (M = Mn, Cr, Ti, Zr, Nb, Mo, W) cathode materials for lithium-ion batteries (2021) (5)
- Low-temperature Synthesis Routes of Alkali-metal Molybdenum Bronzes. (1999) (5)
- Al Substitution for Mn during Co-Precipitation Boosts the Electrochemical Performance of LiNi0.8Mn0.1Co0.1O2 (2021) (5)
- Transition metal tetramolybdate dihydrates MMo4O13・2H2O (M=Co,Ni) having a novel pillared layer structure (2009) (5)
- Beyond the Nobel recognition – To a cleaner sustainable future (2020) (5)
- Layered Molybdenum (Oxy)pyrophosphate a Cathode for Lithium-Ion Batteries. (2013) (5)
- Hydrothermal synthesis, structure refinement, and electrochemical characterization of Li2CoGeO4 as an oxygen evolution catalyst (2014) (5)
- Lithium titanium disulfide cathodes (2021) (5)
- Niobium Triselenide in a Lithium Dioxolane Cell (1981) (5)
- Pushing the frontiers of lithium-ion batteries raises safety questions (2016) (5)
- The tortoise and the hare (2012) (5)
- New Manganese Oxides by Hydrothermal Reaction of Permanganates (1996) (5)
- Can Greener Cyrene Replace NMP for Electrode Preparation of NMC 811 Cathodes? (2021) (5)
- Solid State Ionics - the key to the discovery, introduction and domination of lithium batteries for portable energy storage (2018) (4)
- Anode Hosts for Lithium Batteries: Revisiting Tin and Aluminum (2004) (4)
- Lithium cobalt(II) pyrophosphate, Li1.86CoP2O7, from synchrotron X-ray powder data (2011) (4)
- Electrochemically synthesized nanoporous gold as a cathode material for Li-O2 batteries (2017) (4)
- Electrical energy storage and intercalation chemistry. [Li/TiS/sub 2/ with LiPF/sub 6/ or LiClO/sub 4/ electrolyte: ambient temp] (1976) (4)
- Electrical Energy Storage Using Flywheels (2008) (4)
- The Structural and Electrochemical Impact of Li and Fe Site Substitution in LiFePO 4 (2013) (4)
- Sodium trivanadium(III) bis(sulfate) hexahydroxide. (2000) (4)
- Structure, Composition, and Electrochemistry of Chromium-Substituted ε-LiVOPO4 (2021) (4)
- The Structural and Electrochemical Impact of Li and Fe Site Substitution in LiFePO4. (2013) (3)
- Layered structure of lithium ethylene glycolate, Li(OCH2CH2OH) (1998) (3)
- The Hydrothermal Synthesis of Lithium Iron Phosphate (2006) (3)
- A novel lithium copper iron phosphate with idealized formula Li5Cu2 2+Fe3+(PO4)4: crystal structure and distribution of defects (2011) (3)
- Tris(1,1,5,5‐tetramethyl‐2‐thiobiuretato)cobalt(III) (2004) (3)
- 7 – NMR Techniques for Studying Ionic Diffusion (1978) (3)
- The Inserting Host–Guest System in [N(CH3)4]8[(CH3COO)V22O54].4.25H2O (1998) (3)
- Isoxazole-Based Electrolytes for Lithium Metal Protection and Lithium-Sulfurized Polyacrylonitrile (SPAN) Battery Operating at Low Temperature (2022) (3)
- Structural and Electrochemical Properties of LiMn0.4Ni0.4Co0.2O2 (2004) (3)
- Low Temperature Synthesis of Lamellar Transition Metal Oxides Containing Surfactant Ions (1996) (3)
- Crystallization of AgTi2(PO4)3 and related compounds close to ambient conditions (1991) (3)
- Ultimate Limits to Intercalation Reactions for Lithium Batteries (2015) (3)
- Crystal structure of tetrasodium bis(tetramethylammonium) decavanadate icosahydrate,Na4(N(CH3)4)2(V10O28)(H2O)20 (1997) (2)
- Influence of Lithium Content on Performance of Layered Li 1+z [Ni 0.45 Mn 0.45 Co 0.1 ] 1-z O 2 in Lithium Ion Batteries (2006) (2)
- Hydrothermal Synthesis and Characterization of KxMnO2×yH2O. (1996) (2)
- Fluorophlogopite and taeniolite: Synthesis and nanocomposite formation (1996) (2)
- The Relationship between Structure and Cell Properties of the Cathode for Lithium Batteries (2007) (2)
- Amorphous Cathodes for Lithium Batteries (1980) (2)
- Solid-state ionics: The key to the discovery and domination of lithium batteries: some learnings from β-alumina and titanium disulfide (2021) (2)
- LITHIUM BATTERY SYSTEMS (1980) (2)
- Phosphoric acid imidazolium dihydrogenphosphate (2006) (2)
- KVOPO 4 : A New High Capacity Multielectron NaIon Battery Cathode (2018) (2)
- MATERIALS FOR ELECTRICAL ENERGY STORAGE (2010) (2)
- Introduction and Foreword to Focus Issue on Intercalation Compounds for Rechargeable Batteries (2013) (2)
- Synthesis of Novel Vanadium Oxide Nanotubes and Nanofibers (2002) (2)
- New Iron (III) Hydroxyl-Phosphate with Rod-packing Structure as Intercalation Materials (2002) (2)
- Valence-to-core X-ray emission spectroscopy of vanadium oxide and lithiated vanadyl phosphate materials (2020) (2)
- A ARTICLE Identifying the chemical and structural irreversibility in LiNi 0.8 Co 0.15 Al 0.05 O 2 - A model compound for classical layered intercalation (2018) (2)
- Structure and Stability of Olivine Phase FePO 4 (2011) (2)
- The Layered Methylammonium Molybdate (NH3CH3)2[Mo7O22] from X‐ray Powder Data (1997) (2)
- The Reactivity of Metal Oxides and Sulfides with Lithium at 25°C — the Critical Role of Topotaxy (1977) (2)
- Synthesis, Crystal Structure, and Structural Conversion of Ni Molybdate Hydrate NiMoO4·nH2O. (2010) (1)
- Fast ion transport materials and batteries (1974) (1)
- Operando XAS to Illustrate the Importance of Electronic Conductivity in Vanadyl Phosphate Systems (2021) (1)
- Hydrothermal Synthesis of a New Molybdate with a Layered Structure, ( NMe4)Mo4‐δO12. (1994) (1)
- Volcano plots and cyclohexane dehydrogenation (1977) (1)
- Effect of tungsten substitution in the YBa2Cu3O7−x system (1991) (1)
- 21 – Mixed One- and Two-Dimensional Conductors (1978) (1)
- Solid state chemistry of energy conversion and storage : a symposium (1977) (1)
- The Intermediate State of the Layered → Spinel Phase Transformation in LiNi0.80Co0.15Al0.05O2 Cathode (2017) (1)
- Using In-Situ Methods to Characterize Phase Changes in Charged Lithium Nickel Cobalt Aluminum Oxide Cathode Materials (2019) (1)
- Electrochemical Performance of Lithium-Ion Hybrid Supercapacitors based on Activated Carbon and Nanoplatelet Li4Ti5O12 Insertion Electrode Synthesized by Nanoscission Technique (2015) (1)
- High-Energy Cathode Materials - Li2(Mn, Co, Fe)P2O7 (2011) (1)
- Li3Mo4P5O24: A Two-Electron Cathode for Lithium-Ion Batteries with Three-Dimensional Diffusion Pathways. (2016) (1)
- Magnetic Studies of Layered Cathode Materials for Lithium Ion Batteries (2006) (1)
- Understanding the Reaction Mechanism of Amorphous SnCo-C Anode in Lithium Ion Batteries (2011) (1)
- Synthesis and Characterization of New Iron and Zinc Phosphate Materials with Open Framework (2004) (1)
- Nanosized Amorphous Materials as Anodes for Lithium Batteries (2006) (1)
- Solid state ionics-91 : proceedings of the 8th International Conference on Solid State Ionics, Lake Louise, Alberta, Canada, October 20-26, 1991 (1992) (1)
- Sulfone Containing Clay Electrolytes and Their Potential for Li-Rechargeable Batteries (1998) (1)
- Structural Degradations in the Bulk of Cathode Particles for Li-ion Batteries (2018) (1)
- An Electrochemical Study on NH4VOPO4: Can Ion-Exchange Improve Side Reactions? (2021) (1)
- The Hydrothermal Synthesis of K z MnO 2 in the Presence of Citric Acid (1998) (1)
- Hydrothermal Synthesis of Sodium Tungstates. (1990) (1)
- Synthesis and Characterization of Nickel and Manganese Vanadium Oxides (1998) (1)
- Northeast Center for Chemical Energy Storage (NECCES) (2015) (1)
- Hydrothermal Synthesis of Novel Vanadium Oxides (1996) (1)
- Vanadium Oxide Nanotubes: Characterization and Electrochemical Behavior (2001) (1)
- Preparation of Nanoribbons of Blue Potassium Molybdenum Bronze (2013) (1)
- (Keynote) Beta Alumina – Prelude to a Revolution in Solid State Electrochemistry (2019) (1)
- FREE ENERGY OF FORMATION OF SODIUM TUNGSTEN BRONZES, NA(X)WO3 (1975) (1)
- High Energy Density Lithium Battery (2018) (1)
- Materials chemistry companion to general chemistry: An update (1992) (1)
- Enhanced High-Rate Performance of Nanosized Single Crystal ε-VOPO4 with Niobium Substitution for Lithium-Ion Batteries (2021) (1)
- Voltage and Temperature Limits of Advanced Electrolytes for Lithium-Metal Batteries (2023) (1)
- Bis(1,1,5,5-tetramethyl-2-thiobiuretato)nickel(II) (2004) (1)
- Synthesis, Diffusion and Ion-Exchange in Open Structure Sodium Tungstates and Ybacu Tungstates (1990) (1)
- Nanocomposite Electrodes for Advanced Lithium Batteries: The LiFePO4 Cathode (2001) (1)
- Enhanced Electrochemical Performance of Fe-Sn Alloy with Cu Additive As Anode in Lithium-Ion Batteries (2017) (1)
- Crystal structure of tetrasodium bis(tetramethylammonium) decavanadate icosahydrate,Na4(N(CH3)4)2(V10O28)(H2O)20 (1997) (1)
- In-Situ TEM Electrochemical Processes in Conversion-Based Li-Ion Battery Electrodes (2014) (1)
- USE OF SOLID STATE ELECTROCHEMICAL TRANSDUCER TECHNIQUES FOR CONTROL OF THE POINT DEFECT STRUCTURE IN SOLIDS. (1969) (1)
- Materials for solid state batteries: Edited by B.V.R. Chowdari and S. Radhakrishna, World Scientific Publishing Co., Singapore (1986) 502 pages, $53.00 (1987) (1)
- Sn and SnBi Foil as Anode Materials for Secondary Lithium Battery (2002) (1)
- STRUCTURAL STUDIES OF THE INTERCALATION COMPLEXES TIS2. -NH3 AND TAS2.NH3 (1975) (1)
- Keynote Address- Cathodes for Polymer-Based Lithium Batteries (2006) (0)
- Relation of review framework to other methods and principles (2017) (0)
- Thermodynamics and Kinetics of the Multi-Electron ε-VOPO 4 cathode Across Two Lithium Insertion (2015) (0)
- Vanadium Oxide Frameworks Modified with Transition Metals (2000) (0)
- Evolution of the Surface and Subsurface Chemical Environment of LixNi0.8Co0.15Al0.5O2 electrodes (2015) (0)
- Li2Sn(OH)6. (2001) (0)
- Abstract Submitted for the MAR07 Meeting of The American Physical Society Magnetic properties of vanadium oxide nanorods, nanotubes and nanourchins.1 (2012) (0)
- 25/100 25 years for the solid state ionics community the 100th volume of solid state ionics (1997) (0)
- Solid state chemistry. Techniques: Edited by A. K. Cheetham and P. Day, The Clarendon Press, Oxford University Press, New York (1987) 398 pages $70.00 (1989) (0)
- Studies of Reaction Mechanisms in Nano-Structured Conversion Electrodes Using Magnetic Properties (2011) (0)
- How to Optimize the Synthesis of Ni1-y-ZMnyCoz(OH)2, y+z≤0.20, in a Continuous Stirred Tank Reactor (CSTR) (2021) (0)
- Structure and Electrochemistry of Chromium Substituted Lithium Vanadyl Phosphate for Lithium-Ion Batteries (2017) (0)
- Diffusion in the Intercalation Compounds of the Layered Disulfides (1976) (0)
- New Vanadium and Manganese Oxides for Lithium Batteries (1997) (0)
- Basic solid state chemistry: Anthony R. West, John Wiley & Sons, New York (1988), 415 pages £13.95 ($32.95) (1989) (0)
- Electrospinning of Single-Crystal Vanadium Oxide Nanorods (2006) (0)
- Synthesis and Characterization of a New Layered Ethylene‐Diammonium Manganese(II) Phosphate, (C2N2H10)Mn2 (PO4)2×2H2O. (2004) (0)
- Solid-State Chemistry of Inorganic Materials IV : symposium held December 2-6, 2002, Boston, Massachusetts, U.S.A. (2003) (0)
- Crystal chemistry of layered vanadium oxide cathode materials (1996) (0)
- Iron and Manganese Pyrophosphates as Cathodes for Lithium-Ion Batteries. (2011) (0)
- Reactions of hydrogen vermiculite " LETTERS SECTION SOLID STATE 10 NI ( S (0)
- Hydrothermal Synthesis, Structural Transformations and Electrochemistry of Lithium Vanadyl Phosphates (2016) (0)
- Energy Storage Materials: Past and Future―Beyond Li-Ion (2011) (0)
- What Is Different about Hydrothermally Synthesized ε-LiVOPO 4 ? (2015) (0)
- Transition Metal Oxides: Characterization and Energy Storage (2003) (0)
- The Origins and Future Trends of Lithium Batteries (2020) (0)
- The Ionic Conductivity of Hydrogen Vermiculite. (1992) (0)
- Cathodic Behavior of Alkali Manganese Oxides from Permanganate. (1997) (0)
- Reactivity of solids : proceedings of the 11th International Symposium, Princeton University, USA, June 19-24, 1988 (1989) (0)
- Synthesis and Characterization of Manganese Vanadium Oxides as Cathodes in Lithium Batteries (1999) (0)
- Materials Crystal Chemistry By Relva C. Buchanan and Taeun Park (University of Cincinnati). Marcel Dekker: New York. 1997. vii + 462 pp. $175.00. ISBN: 0-8247-9798-1. (1998) (0)
- Can Vanadium Substitute into LiFePO4 (2011) (0)
- Solid state chemistry and its applications: Anthony R. West, John Wiley & Sons, New York (1987), 734 pages $103.00 hardcover, $39.95 softcover (1989) (0)
- Grand Challenge: Attaining the Limits of Intercalation Reactions (2016) (0)
- How Cells Sense and Adapt to Fluctuating Oxygen Levels: The Nobel Prize in Physiology or Medicine 2019 (2019) (0)
- Vaporization Thermodynamics and Heat Capacities of Cr3Ge and Cr5Ge3. (2002) (0)
- Chapter 9 – Material Aspects of the New Batteries (1979) (0)
- Electrochemical Evolution of the Surface and Subsurface Properties of Layered Nickel-Rich Oxide Cathodes (2015) (0)
- Manganese Vanadium Oxide Compounds as Cathodes for Lithium Batteries (2000) (0)
- The stabilization of layered manganese oxides for use in rechargeable lithium batteries (1999) (0)
- Si/MgO/C Composite Material as Anode for Lithium-Ion Batteries (2011) (0)
- Excellent Thermal Stability of VOPO 4 As Cathode for Lithium-Ion Battery (2015) (0)
- Computer-aided molecular design: Edited by W. Graham Richards, IBC Technical Services Ltd, London (1989), 264 pages + 32 color plates £95.00; in North America published by VCH Publishers Inc. New York (1990) (0)
- Tetrakis(tetramethylammonium) di--sulfato-bis[oxosulfatovanadate(V)] (2004) (0)
- Modified Sol-Gel Synthesis of Vanadium Oxide Nanocomposites Containing Surfactant Ions (1999) (0)
- (Keynote) The Introduction of Intercalation into Battery Science: 1968-1990 (2016) (0)
- ESI ) : The Electrochemical Behaviour of TTF in LiO 2 Batteries using TEGDME-based Electrolyte (2016) (0)
- Vibrational response of vanadium oxide nanotubes (2004) (0)
- In-Situ TEM Study of Phase Evolution in Individual Battery Materials (2017) (0)
- III–V microelectronicsJ.P. Norgier, editor, North-Holland, Elsevier Science Publishers (1991), 514 pages. ISBN 0-444-88990-6, US $ 141.00, Dfl. 275.00 (1993) (0)
- Research Opportunities and New Directions in High-Temperature Superconducting Materials (1987) (0)
- Understanding and applying coulombic efficiency in lithium metal batteries (2020) (0)
- (Invited) High Rate Cycling in ε-VOPO4 with Niobium Substitution for Lithium-Ion Batteries (2020) (0)
- Magnetic Properties of a New One-Dimensional Vanadium Oxide with the Hollandite Structure. (2004) (0)
- The Holy Grail of Batteries - Lithium-Air: Reality vs Hype (2011) (0)
- Rietveld Analysis of NaxWO3+x/2×yH2O, Which Has the Hexagonal Tungsten Bronze Structure. (2010) (0)
- (Plenary) Materials for High Energy Density Li and Li-Ion Batteries (2019) (0)
- Spin-gap state and the structural phase transition in delta-phase NH$_4$V$_4$O$_{10}$ (2005) (0)
- Magnetic properties of iron phosphates with low-dimensional linkage of FeO 6 octahedra. (2003) (0)
- Transition Metal Oxides: Stoichiometry and Hydrothermal Synthesis for Intercalation Reactions (2002) (0)
- Magnetic Properties of Vanadium Oxide Nanotubes, Nanourchins, and Nanorods. (2006) (0)
- CCDC 257792: Experimental Crystal Structure Determination (2005) (0)
- Magnetic properties of double-layer vanadium oxides and vanadium oxide nanotubes. (2006) (0)
- New Type of Cathode Materials for Lithium-Ion Batteries Based on Pyrophosphate Compounds (2010) (0)
- Magnetic Studies of Lithium Cycling in SnCoC Anode (2010) (0)
- Synthesis of Battery Materials (2009) (0)
- An Integrated First Principles and Experimental Approach to Enabling Multi-Electron Lithium-Ion Battery Cathodes (2015) (0)
- Book reviewImpedance spectroscopy: Edited by J. Ross Macdonald, A Wiley-Interscience Publication, John Wiley & Sons, New York (1987) 346 pages $44.95 (1989) (0)
- Microionics: Solid-state integrable batteriesM. Balkanski, Editor, North-Holland (1991), 512 pages. ISBN 0-444-88853-5. US $ 179.50, Dfl. 350.00. (1993) (0)
- A Study of The Li|Li x V 2 O 4 Cell (1998) (0)
- Vanadium Oxide Nanofibers and Vanadium Oxide Polyaniline Nanocomposite: Preparation, Characterization and Electrochemical Behavior (2003) (0)
- Defense Technical Information Center Compilation Part Notice ADP 012221 TITLE : Vanadium Oxide Nanotubes : Characterization and Electrochemical Behavior (0)
- Defense Technical Information Center Compilation Part Notice ADP 012219 TITLE : Nanocomposite Electrodes for Advanced Lithium Batteries : The LiFePO 4 Cathode (0)
- Formation processes of high-dimensional MoO frameworks in tetrakis(2-hydroxypropane-1,3-diaminium) hexatriacontamolybdate hydrate (C3H12N2O)4[Mo36O112(H2O)16-m]·nH2O crystals: Solid-phase structural conversions under restricted dehydration conditions (2013) (0)
- STRUCTURE DETERMINATION FROM POWDER DIFFRACTION DATA – CHALLENGING BATTERY MATERIALS (2004) (0)
- Recent Trends in Intercalation Chemistry Cathodes and Anodes for Lithium Batteries (2006) (0)
- Reactivity and chemical modification of oxide superconductors (2008) (0)
- Solid state electrochemistry and its applications to sensors and electronic devices: (Materials Science Monographs #45) K. S. Goto, Elsevier Science Publishers, Amsterdam (1988) 454 pages Dfl. 245.00 ($119.50) (1990) (0)
- Structural disorder and magnetic properties of NaNi$_{0.5}$Mn$_{0.5}$O$_{2}$ and LiNi$_{0.5}$Mn$_{0.5}$O$_{2}$. (2007) (0)
- Magnetic properties of vanadium oxide nanorods, nanotubes and nanourchins. (2007) (0)
- Probing the Electrochemical Processes of Nanocrystalline SnCo-Carbon Composites as Anode Materials for Li Ion Battery Applications (2011) (0)
- Pathways for practical high-energy long-cycling lithium metal batteries (2019) (0)
- The ionic conductance of mono and divalent cations in single crystal layer structure aluminosilicates (1988) (0)
- The TWh challenge: Next generation batteries for energy storage and electric vehicles (2023) (0)
- The Hydrothermal Synthesis and Characterization of New Organically Templated Layered Vanadium Oxides by Methylamine (1997) (0)
- Solid polymer electrolytesFundamentals and Technological Applications, Fiona M. Gray, VCH Publishers (1991), 245 pages. ISBN 0-89573-772-8, £44.00, DM 128.00. (1993) (0)
- Substituted β‐Aluminas (2007) (0)
- An introduction to solid state diffusion: R.J. Borg and G.J. Dienes, Academic Press (1988) 360 pages $49.500. (1990) (0)
- Magnetic Studies of Conversion Processes in Iron (Oxy)Fluoride Based Electrodes (2014) (0)
- Electrochemical Energy Summit Session 8 - EFRC Talks (2015) (0)
- Solid state ionicsM. Balkanski, T. Takahashi and H.L. Tuller, Editors, North-Holland (1992), 669 pages. ISBN 0-444-89354-7. US $ 157.00, Dfl. 275.00. (1993) (0)
- Rings, clusters and polymers of main group and transition elements: Edited by H. W. Roesky, Elsevier, Amsterdam (1989) 560 pages Dfl. 350.00 ($170.75) (1990) (0)
- WIDELINE NMR STUDIES OF AMMONIA INTERCALATION COMPLEXES. I. TANTALUM DISULFIDE(AMMONIA) AND TITANIUM DISULFIDE(AMMONIA) (1976) (0)
- The Optimum Composition of LiNiyMnyCo1-2yO2 (2010) (0)
- Materials in the Undergraduate Chemistry Curriculum (1990) (0)
- High-energy lithium metal pouch cells with limited anode swelling and long stable cycles (2019) (0)
- Synthesis and Electrochemistry of High Energy LiVOPO 4 with Enhanced Electronic and Ionic Conductivity (2017) (0)
- The hydrothermal synthesis of the new manganese and vanadium oxides, NiMnO 3 H, MAV 3 O 7 and MA 0.75 V 4 O 10 0.67H 2 O (MA=CH 3 NH 3 )† (1999) (0)
- Letter to the editor/volcano plots and cyclohexane dehydrogenation (1977) (0)
- The effect of transition metal ions distribution on magnetic properties of Li$_{x}$(Ni$_{y}$Mn$_{y}$Co$_{1-2y})$O$_{2}$. (2006) (0)
- Leading the charge for environmentally sustainable electromobility with nanotechnology (2016) (0)
- Iron Phosphates as Cathodes of Lithium-Ion Batteries (2006) (0)
- Electron microscopy in solid state physics: (Volume 40 of Materials Science Monographs). Edited by H. Bethge and J. Heydenreich, Elsevier Science Publishers (1987) 596 pages $97.75 (Dfl 220) (1988) (0)
- Interfacial Effects of Electrochemical Lithiation of Epsilon-VOPO 4 and Evolution of the Electronic Structure (2015) (0)
- Battery500 Consortium: Development of High-Capacity Cathodes and Robust Solid Electrolytes (2022) (0)
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