Dahn, Jeff

McArthur M. A.; Trussler S.; Dahn J. R.

In Situ Investigations of SEI Layer Growth on Electrode Materials for Lithium-Ion Batteries Using Spectroscopic Ellipsometry

Hatchard T. D.; Harlow J. E.; Cullen K. M.; Dunlap R. A.; Dahn J. R.

Non–Noble Metal Catalysts Prepared from Fe in Acid Solution

Burns J. C.; Sinha N. N.; Coyle D. J.; Jain Gaurav; VanElzen Collette M.; Lamanna W. M.; Xiao A.; Scott Erik; Gardner J. P.; Dahn J. R.

The Impact of Varying the Concentration of Vinylene Carbonate Electrolyte Additive in Wound Li-Ion Cells

McArthur M. A.; Trussler S.; Dahn J. R.

In Situ Investigations of SEI Layer Growth on Electrode Materials for Lithium-Ion Batteries Using Spectroscopic Ellipsometry

Hatchard T. D.; Harlow J. E.; Cullen K. M.; Dunlap R. A.; Dahn J. R.

Non–Noble Metal Catalysts Prepared from Fe in Acid Solution

Burns J. C.; Sinha N. N.; Coyle D. J.; Jain Gaurav; VanElzen Collette M.; Lamanna W. M.; Xiao A.; Scott Erik; Gardner J. P.; Dahn J. R.

The Impact of Varying the Concentration of Vinylene Carbonate Electrolyte Additive in Wound Li-Ion Cells

Smith A. J.; Dahn J. R.

Delta Differential Capacity Analysis

Xia Xin; Dahn J. R.

NaCrO2 is a Fundamentally Safe Positive Electrode Material for Sodium-Ion Batteries with Liquid Electrolytes

Xia Xin; Dahn J. R.

NaCrO2 is a Fundamentally Safe Positive Electrode Material for Sodium-Ion Batteries with Liquid Electrolytes

Xiong Deijun; Burns J. C.; Smith A. J.; Sinha Nupur; Dahn J. R.

A High Precision Study of the Effect of Vinylene Carbonate (VC) Additive in Li/Graphite Cells

Burns J. C.; Krause L. J.; Le Dinh-Ba; Jensen L. D.; Smith A. J.; Xiong Deijun; Dahn J. R.

Introducing Symmetric Li-Ion Cells as a Tool to Study Cell Degradation Mechanisms

Sinha Nupur Nikkan; Burns J. C.; Sanderson R. J.; Dahn Jeff

Comparative Studies of Hardware Corrosion at High Potentials in Coin-Type Cells with Non Aqueous Electrolytes

Thorne J. S.; Dahn J. R.; Obrovac M. N.; Dunlap R. A.

An In Situ Study of the Electrochemical Reaction of Li with Amorphous/Nanostructured Cu6Sn5 + C

Chevrier V. L.; Dahn H. M.; Dahn J. R.

Activation Energies of Crystallization Events in Electrochemically Lithiated Silicon

Sinha N. N.; Smith A. J.; Burns J. C.; Jain Gaurav; Eberman K. W.; Scott Erik; Gardner J. P.; Dahn J. R.

The Use of Elevated Temperature Storage Experiments to Learn about Parasitic Reactions in Wound LiCoO2/Graphite Cells

Smith A. J.; Burns J. C.; Xiong D.; Dahn J. R.

Interpreting High Precision Coulometry Results on Li-ion Cells

Xia Xin; Obrovac M. N.; Dahn J. R.

Comparison of the Reactivity of NaxC6 and LixC6 with Non-Aqueous Solvents and Electrolytes

Chih-Kang Liu Gary; Stevens D. A.; Burns J. C.; Sanderson R. J.; Vernstrom George; Atanasoski R. T.; Debe M. K.; Dahn J. R.

Oxygen Reduction Activity of Dealloyed Pt1–xNix Catalysts

Debe M. K.; Steinbach A. J.; Vernstrom G. D.; Hendricks S. M.; Kurkowski M. J.; Atanasoski R. T.; Kadera P.; Stevens D. A.; Sanderson R. J.; Marvel E.; Dahn J. R.

Extraordinary Oxygen Reduction Activity of Pt3Ni7

Stevens D. A.; Mehrotra R.; Sanderson R. J.; Vernstrom G. D.; Atanasoski R. T.; Debe M. K.; Dahn J. R.

Dissolution of Ni from High Ni Content Pt1-xNix Alloys

Stevens D. A.; Wang S.; Sanderson R. J.; Liu G. C. K.; Vernstrom G. D.; Atanasoski R. T.; Debe M. K.; Dahn J. R.

A Combined Rotating Disk Electrode/X-Ray Diffraction Study of Co Dissolution from Pt1-xCox Alloys

Smith A. J.; Burns J. C.; Zhao Xuemei; Xiong Deijun; Dahn J. R.

A High Precision Coulometry Study of the SEI Growth in Li/Graphite Cells

Luo Wenbin; Dahn J. R.

The Impact of Zr Substitution on the Structure, Electrochemical Performance and Thermal Stability of Li[Ni1/3Mn1/3-zCo1/3Zrz]O2

Al-Maghrabi M. A.; van der Bosch Nils; Sanderson R. J.; Stevens D. A; Dunlap R. A.; Dahn J. R.

A New Design for a Combinatorial Electrochemical Cell Plate and the Inherent Irreversible Capacity of Lithiated Silicon

Smith A. J.; Burns J. C.; Dahn J. R.

High-Precision Differential Capacity Analysis of LiMn2O4/graphite Cells

Burns J. C.; Jain Gaurav; Smith A. J.; Eberman K. W.; Scott Erik; Gardner J. P.; Dahn J. R.

Evaluation of Effects of Additives in Wound Li-Ion Cells Through High Precision Coulometry

Zhou Fu; Zhao Xuemei; van Bommel Andrew; Xia Xin; Dahn J. R.

Comparison of Li[Li1/9Ni1/3Mn5/9]O2, Li[Li1/5Ni1/5Mn3/5]O2, LiNi0.5Mn1.5O4, and LiNi2/3Mn1/3O2 as High Voltage Positive Electrode Materials

Luo Wenbin; Dahn J. R.

Can Zr be Substituted for Co in Co1-zZrz(OH)2 and LiCo1-zZrzO2?

Kassam Adil; Burnell D. Jean; Dahn J. R.

Lithiated 1,4,5,8-Naphthalenetetraol Formaldehyde Polymer, An Organic Cathode Material

Marks Thomas; Trussler Simon; Smith A. J.; Xiong Deijun; Dahn J. R.

A Guide to Li-Ion Coin-Cell Electrode Making for Academic Researchers

Smith A. J.; Burns J. C.; Dahn J. R.

A High Precision Study of the Coulombic Efficiency of Li-Ion Batteries

Thorne J. S.; Sanderson R. J.; Dahn J. R.; Dunlap R. A.

Combinatorial Study of the Sn–Cu–C System for Li-Ion Battery Negative Electrode Materials

Liao Peng; Dunlap R. A.; Dahn J. R.

In Situ Mössbauer Effect Study of Lithium Intercalation in LiFe2F6

Luo Wenbin; Li Xinhai; Dahn J. R.

Synthesis, Characterization, and Thermal Stability of LiCo1-z[MnMg]z/2O2

Zhou Fu; Zhao Xuemei; Dahn J. R.

Impact of Al or Mg substitution on the Thermal Stability of Li1.05Mn1.95-zMzO4 (M=Al or Mg)

Luo Wenbin; Li Xinhai; Dahn J. R.

Synthesis and Characterization of Mg Substituted LiCoO2

Stevens D. A.; Wang S.; Sanderson R. J.; Garsuch A.; Debe M. K.; Hendricks S. M.; Atanasoski R. T.; Dahn J. R.

Assessing the Ptupd Surface Area Stability of Pt1-xMx (M=Re, Nb, Bi) Solid Solutions for Proton Exchange Membrane Fuel Cells

Zhou Fu; Zhao Xuemei; Smith A. J.; Dahn J. R.

Studies of LiNi2/3Mn1/3O2: A Positive Electrode Material That Cycles Well to 4.6 V

Chevrier V. L.; Dahn J. R.

First Principles Studies of Disordered Lithiated Silicon

Ferguson P. P.; Dunlap R. A.; Dahn J. R.

An In Situ Study of the Electrochemical Reaction of Li with Nanostructured Sn30Co30C40

Todd A. D. W.; Ferguson P. P.; Barker J. G.; Fleischauer M. D.; Dahn J. R.

Comparison of Mechanically Milled and Sputter Deposited Tin–Cobalt–Carbon Alloys Using Small Angle Neutron Scattering

Zhou Fu; Luo Wenbin; Zhao Xuemei; Dahn J. R.

Relative Impact of Al or Mg Substitution on the Thermal Stability of LiCo1-zMzO2 (M=Al or Mg) by Accelerating Rate Calorimetry

Chevrier V. L.; Dahn J. R.

First Principles Model of Amorphous Silicon Lithiation

van Bommel Andrew; Dahn J. R.

Synthesis of Spherical and Dense Particles of the Pure Hydroxide Phase Ni1/3;Mn1/3;Co1/3;(OH)2

Yang Ruizhi; Dahn Tara R.; Dahn J. R.

Fe–N–C Oxygen-Reduction Catalysts Supported on “Burned-Off” Activated Carbon

Zhou Fu; Zhao Xuemei; Dahn J. R.

Synthesis, Electrochemical Properties, and Thermal Stability of Al-Doped LiNi1/3;Mn1/3;Co(1/3-z);AlzO2 Positive Electrode Materials

Moshurchak L. M.; Lamanna W. M.; Bulinski Mike; Wang R. L.; Garsuch Rita R.; Jiang Junwei; Magnuson D.; Triemert Matthew; Dahn J. R.

High-Potential Redox Shuttle for Use in Lithium-Ion Batteries

Li Jing; Smith Aaron; Sanderson R. J.; Hatchard T. D.; Dunlap R. A.; Dahn J. R.

In Situ ¹¹⁹Sn Mössbauer Effect Study of the Reaction of Lithium with Si Using a Sn Probe

Zhou Fu; Zhao Xuemei; Jiang Junwei; Dahn J. R.

Advantages of Simultaneous Substitution of Co in Li[Ni1/3Mn1/3Co1/3]O2 by Ni and Al

Ferguson P. P.; Rajora M.; Dunlap R. A.; Dahn J. R.

(Sn0.5Co0.5)1-y;Cy Alloy Negative Electrode Materials Prepared by Mechanical Attriting

Tian Ye; Timmons Adam; Dahn J. R.

In Situ AFM Measurements of the Expansion of Nanostructured Sn–Co–C Films Reacting with Lithium

Ferguson P. P.; Liao Peng; Dunlap R. A.; Dahn J. R.

Study of Sn30(Co1-x;Fex)30C40 Alloy Negative Electrode Materials Prepared by Mechanical Attriting

Li Jing; Dahn H. M.; Sanderson R. J.; Todd A. D. W.; Dahn J. R.

Impact of Rare Earth Additions on Transition Metal Oxides as Negative Electrodes for Lithium-Ion Batteries

Zhou Fu; Zhao Xuemei; Fergusoń P. P.; Thorne J. S.; Dunlap R. A.; Dahn J. R.

Comparison of Thermal Stability Between Lithiated Sn30Co30C40, LiSi, or Li0.81C6 and 1 ;MLiPF6 EC;DEC Electrolyte at High Temperature

Fleischauer M. D.; Obrovac M. N.; Dahn J. R.

Al–Si Thin-Film Negative Electrodes for Li-Ion Batteries

Li Jing; Dahn H. M.; Krause L. J.; Le Dinh-Ba; Dahn J. R.

Impact of Binder Choice on the Performance of α-;Fe2O3 as a Negative Electrode

Bonakdarpour Arman; Dahn Tara R.; Atanasoski R. T.; Debe M. K.; Dahn J. R.

H2O2 Release during Oxygen Reduction Reaction on Pt Nanoparticles

Ferguson P. P.; Dahn J. R.

Effect of Annealing on Sn30Co30C40 Prepared by Mechanical Attriting

Garsuch Rita R.; Le Dinh-Ba; Garsuch Arnd; Li Jing; Wang Steven; Farooq Amjad; Dahn J. R.

Studies of Lithium-Exchanged Nafion as an Electrode Binder for Alloy Negatives in Lithium-Ion Batteries

Garsuch Arnd; Stevens D. A.; Michaud Xavier; MacIntyre Kathryn; Dahn J. R.

Fuel Cell Studies on a Non-Noble Metal Catalyst Prepared by a Template-Assisted Synthesis Route

Zhao Xuemei; Zhou Fu; Dahn J. R.

Phases Formed in Al-Doped Ni1/3Mn1/3Co1/3(OH)2 Prepared by Coprecipitation: Formation of Layered Double Hydroxide

Zhou Fu; Zhao Xuemei; Lu Zhonghua; Jiang Junwei; Dahn J. R.

The Effect of Al Substitution on the Reactivity of Delithiated LiNi(0.5-z);Mn(0.5-z);A12zO2 with Nonaqueous Electrolyte

Easton E. Bradley; Bonakdarpour Arman; Yang Ruizhi; Stevens David A.; Dahn J. R.

Magnetron Sputtered Fe–;C–;N, Fe–;C, and C–;N Based Oxygen Reduction Electrocatalysts

Bonakdarpour Arman; Lefevre Michel; Yang Ruizhi; Jaouen Frederic; Dahn Tara; Dodelet Jean-Pol; Dahn J. R.

Impact of Loading in RRDE Experiments on Fe–N–C Catalysts; Two- or Four-Electron Oxygen Reduction?

Yang Ruizhi; Dahn Tara R.; Dahn Hannah M.; Dahn J. R.

Fe–C–N Oxygen-Reduction Catalysts Prepared by Mechanochemical Reaction

Garsuch Arnd; Garsuch Rita R.; Klepel Olaf; Dahn Tara; d'Eon Ryan; Dahn Jeffrey R.

Oxygen Reduction Behavior of Highly Porous Non-Noble Metal Catalysts Prepared by a Template-Assisted Synthesis Route

Li Jing; Christensen L.; Obrovac M. N.; Hewitt K. C.; Dahn J. R.

Effect of Heat Treatment on Si Electrodes Using Polyvinylidene Fluoride Binder

Bonakdarpour Arman; Lake Kerry; Stevens Krystal; Dahn J. R.

Oxygen Reduction Activity of Magnetron-Sputtered Pt1-x;Cox(0⩽x⩽0.5); Films

Moshurchak L. M.; Buhrmester C.; Dahn J. R.

Triphenylamines as a Class of Redox Shuttle Molecules for the Overcharge Protection of Lithium-Ion Cells

Yang Ruizhi; Stevens Krystal; Dahn J. R.

Investigation of Activity of Sputtered Transition-Metal (TM)–C–N (TM = V, Cr, Mn, Co, Ni) Catalysts for Oxygen Reduction Reaction

Wang R. L.; Moshurchak L. M.; Lamanna W. M.; Bulinski M.; Dahn J. R.

A Combined Computational/Experimental Study on Tertbutyl- and Methoxy-Substituted Benzene Derivatives as Redox Shuttles for Lithium-Ion Cells

Stevens D. A.; Atanasoski R. T.; Mar R. E.; Rouleau J. M.; Schmoeckel A. K.; Debe M. K.; Dahn J. R.

Enhanced CO-Tolerance of Pt–Ru–Mo Hydrogen Oxidation Catalysts

Yang Ruizhi; Stevens Krystal; Bonakdarpour Arman; Dahn J. R.

Dependence of the Activity of Sputtered Co–C–N Oxygen Reduction Electrocatalysts on Heat-Treatment Temperature

Timmons A.; Todd A. D. W.; Mead S. D.; Carey Graham H.; Sanderson R. J.; Mar R. E.; Dahn J. R.

Studies of Si1-x;Cx Electrode Materials Prepared by High-Energy Mechanical Milling and Combinatorial Sputter Deposition

Obrovac M. N.; Christensen Leif; Le Dinh Ba; Dahn J. R.

Alloy Design for Lithium-Ion Battery Anodes

Stevens D. A.; Mar R. E.; Bonakdarpour A.; Atanasoski R. T.; Schmoeckel A. K.; Debe M. K.; Rouleau J. M.; Dahn J. R.

Characterization and PEMFC Testing of Pt1-x;Mx(M=Ru,Mo,Co,Ta,Au,Sn) Anode Electrocatalyst Composition Spreads

Todd A. D. W.; Mar R. E.; Dahn J. R.

Tin–Transition Metal–Carbon Systems for Lithium-Ion Battery Negative Electrodes

Timmons A.; Dahn J. R.

Isotropic Volume Expansion of Particles of Amorphous Metallic Alloys in Composite Negative Electrodes for Li-Ion Batteries

Yang Ruizhi; Bonakdarpour Arman; Bradley Easton E.; Stoffyn-Egli P.; Dahn J. R.

Co–;C–;N Oxygen Reduction Catalysts Prepared by Combinatorial Magnetron Sputter Deposition

Lewis R. B.; Timmons A.; Mar R. E.; Dahn J. R.

In Situ AFM Measurements of the Expansion and Contraction of Amorphous Sn-Co-C Films Reacting with Lithium

Li Jing; Dahn J. R.

An In Situ X-Ray Diffraction Study of the Reaction of Li with Crystalline Si

Fleischauer M. D.; Mar R.; Dahn J. R.

Method to Predict Phase Formation and Specific Capacity for Lithium in Codeposited Silicon-Transition Metal Thin Films

Li Jing; Lewis R. B.; Dahn J. R.

Sodium Carboxymethyl Cellulose

Easton E. Bradley; Yang Ruizhi; Bonakdarpour Arman; Dahn J. R.

Thermal Evolution of the Structure and Activity of Magnetron-Sputtered TM–C–N ;(TM=Fe, ;Co) Oxygen Reduction Catalysts

Wang Yadong; Dahn Jeff

Phase Changes in Electrochemically Lithiated Silicon at Elevated Temperature

Bonakdarpour A.; Löbel R.; Sheng S.; Monchesky T. L.; Dahn J. R.

Acid Stability and Oxygen Reduction Activity of Magnetron-Sputtered Pt1-x;Tax (0≤x≤1); Films

Wang Yadong; Dahn J. R.

Comparison of the Reactions Between LixSi or Li0.81C6 and Nonaqueous Solvent or Electrolytes at Elevated Temperature

Binder M.; Weber A.; Mosendz O.; Woltersdorf G.; Izquierdo M.; Neudecker I.; Dahn J. R.; Hatchard T. D.; Thiele J.-U.; Back C. H.; Scheinfein M. R.

Magnetization dynamics of the ferrimagnet CoGd near the compensation of magnetization and angular momentum

Todd A. D. W.; Mar R. E.; Dahn J. R.

Combinatorial Study of Tin-Transition Metal Alloys as Negative Electrodes for Lithium-Ion Batteries

Wang R. L.; Dahn J. R.

Computational Estimates of Stability of Redox Shuttle Additives for Li-Ion Cells

Bonakdarpour A.; Schmoeckel A. K.; Debe M. K.; Löbel R.; Atanasoski R. T.; Vernstrom G. D.; Dahn J. R.

Dissolution of Transition Metals in Combinatorially Sputtered Pt1-x-y;MxMy^′;(M, ;M^′;=Co, ;Ni, ;Mn, ;Fe) PEMFC Electrocatalysts

Buhrmester Claudia; Moshurchak L. M.; Wang R. L.; Dahn J. R.

The Use of 2,2,6,6-Tetramethylpiperinyl-Oxides and Derivatives for Redox Shuttle Additives in Li-Ion Cells

Easton E. Bradley; Bonakdarpour Arman; Dahn J. R.

Fe-C-N Oxygen Reduction Catalysts Prepared by Combinatorial Sputter Deposition

Wang Yadong; Dahn Jeff

Comparison of the Reaction of LixSi or Li0.81C6 with 1 ;MLiPF6 EC;DEC Electrolyte at High Temperature

Dahn J. R.; Mar R. E.; Fleischauer M. D.; Obrovac M. N.

The Impact of the Addition of Rare Earth Elements to Si1-x;Snx Negative Electrode Materials for Li-Ion Batteries

Timmons A.; Dahn J. R.

In Situ Optical Observations of Particle Motion in Alloy Negative Electrodes for Li-Ion Batteries

Fleischauer M. D.; Obrovac M. N.; Dahn J. R.

Simple Model for the Capacity of Amorphous Silicon-Aluminum-Transition Metal Negative Electrode Materials

Fleischauer M. D.; Topple J. M.; Dunlap R. A.; McGraw J. D.; Obrovac M. N.; Dahn J. R.

Al-M (M=Cr, ;Fe, ;Mn, ;Ni) Thin-Film Negative Electrode Materials

Wang R. L.; Buhrmester Claudia; Dahn J. R.

Calculations of Oxidation Potentials of Redox Shuttle Additives for Li-Ion Cells

Dahn J. R.; Mar R. E.; Abouzeid Alyaa

Combinatorial Study of Sn1-x;Cox (0 and [;Sn0.55Co0.45];1-y;Cy (0 Alloy Negative Electrode Materials for Li-Ion Batteries

Jiang Junwei; Dahn J. R.

Dependence of the Heat of Reaction of Li0.81C6 (0.1 ;V), Li7Ti5O12 (1.55 ;V), and Li0.5VO2 (2.45 ;V) Reacting with Nonaqueous Solvents or Electrolytes on the Average Potential of the Electrode Material

Buhrmester Claudia; Moshurchak Lee; Wang Richard Liangchen; Dahn J. R.

Phenothiazine Molecules

Hatchard T. D.; Obrovac M. N.; Dahn J. R.

A Comparison of the Reactions of the SiSn, SiAg, and SiZn Binary Systems with L3i

Buhrmester Claudia; Wang Richard Liangchen; Jiang Junwei; Moshurchak Lee; Chen Jun; Dahn J. R.

Studies of Aromatic Redox Shuttle Additives for LiFePO4-Based Li-Ion Cells

Hatchard T. D.; Obrovac M. N.; Dahn J. R.

Electrochemical Reaction of the Si1-x;Znx Binary System with Li

Jiang J.; Eberman K. W.; Krause L. J.; Dahn J. R.

Structure, Electrochemical Properties, and Thermal Stability Studies of Cathode Materials in the xLi[;Mn1/2;Ni1/2;];O2∙;yLiCoO2∙;zLi[;Li1/3;Mn2/3;];O2 Pseudoternary System (x+y+z=1)

Jiang J.; Krause L. J.; Eberman K. W.; Dahn J. R.

Structure, Electrochemical Properties, and Thermal Stability Studies of Li[;Ni0.2Co0.6Mn0.2];O2

Beattie S. D.; Dahn J. R.

Masked Electrodeposition of a Composition-Spread Library of Sn-Zn Alloys onto a 64-Channel Combinatorial Cell Plate

Beattie S. D.; Dahn J. R.

Combinatorial Electrodeposition of Ternary Cu–Sn–Zn Alloys

Hatchard T. D.; Dahn J. R.

Electrochemical Reaction of the SiAg Binary System with Li

Dahn J. R.; Buhrmester C.; Fleischauer M. D.; Moshurchak L. M.; Jiang Junwei; Krause L. J.

High-Rate Overcharge Protection of LiFePO4-Based Li-Ion Cells Using the Redox Shuttle Additive 2,5-Ditertbutyl-1,4-dimethoxybenzene

Moshurchak L. M.; Buhrmester C.; Dahn J. R.

Spectroelectrochemical Studies of Redox Shuttle Overcharge Additive for LiFePO4-Based Li-Ion Batteries

Barkhouse D. A. R.; Dahn J. R.

A Novel Fabrication Technique for Producing Dense Li[;NixLi(1/3–2x/3);Mn(2/3-x/3);];O2, 0⩽x⩽1/2;

Jiang J.; Eberman K. W.; Krause L. J.; Dahn J. R.

Reactivity of Liy[;NixCo1-2x;Mnx];O2(x=0.1, 0.2, 0.35, 0.45, and 0.5; y=0.3, 0.5) with Nonaqueous Solvents and Electrolytes Studied by ARC

Fleischauer M. D.; Topple J. M.; Dahn J. R.

Combinatorial Investigations of Si-M (M = ;Cr + ;Ni, Fe, Mn;) Thin Film Negative Electrode Materials

Bonakdarpour A.; Wenzel J.; Stevens D. A.; Sheng S.; Monchesky T. L.; Löbel R.; Atanasoski R. T.; Schmoeckel A. K.; Vernstrom G. D.; Debe M. K.; Dahn J. R.

Studies of Transition Metal Dissolution from Combinatorially Sputtered, Nanostructured Pt1-x;Mx (M = Fe, Ni; 0 Electrocatalysts for PEM Fuel Cells

Jiang J.; Buhrmester T.; Eberman K. W.; Krause L. J.; Dahn J. R.

Electrochemical and Thermal Comparisons of Li[Ni;0.1Co0.8Mn0.1];O2 Synthesized at Different Temperatures (900, 1000, and 1100°C)

Chen Jun; Buhrmester Claudia; Dahn J. R.

Chemical Overcharge and Overdischarge Protection for Lithium-Ion Batteries

Jiang Junwei; Chen Jun; Dahn J. R.

Comparison of the Reactions Between Li7/3Ti5/3O4 or LiC6 and Nonaqueous Solvents or Electrolytes Using Accelerating Rate Calorimetry

Jouanneau S.; Bahmet W.; Eberman K. W.; Krause L. J.; Dahn J. R.

Effect of the Sintering Agent, B2O3, on Li[Ni;xCo1-2x;Mnx];O2 Materials

Jouanneau S.; Dahn J. R.

Influence of LiF Additions on Li[Ni;xCo1-2x;Mnx];O2 Materials

Hatchard T. D.; Dahn J. R.

Study of the Electrochemical Performance of Sputtered Si1-x;Snx Films

Chen Zonghai; Chevrier Vincent; Christensen L.; Dahn J. R.

Design of Amorphous Alloy Electrodes for Li-Ion Batteries

Fleischauer M. D.; Dahn J. R.

Combinatorial Investigations of the Si-Al-Mn System for Li-Ion Battery Applications

Hatchard T. D.; Dahn J. R.

In Situ XRD and Electrochemical Study of the Reaction of Lithium with Amorphous Silicon

Jiang Junwei; Fortier Hubert; Reimers J. N.; Dahn J. R.

Thermal Stability of 18650 Size Li-Ion Cells Containing LiBOB Electrolyte Salt

Bonakdarpour A.; Hewitt K. C.; Turner R. L.; Dahn J. R.

Electrochemical and In Situ XRD Studies of the Li Reaction with Combinatorially Sputtered Mo1-x;Snx(0 ;⩽; x ; ⩽; 0.50); Thin Films

Chen Zhaohui; Dahn J. R.

Improving the Capacity Retention of LiCoO2 Cycled to 4.5 V by Heat-Treatment

Jouanneau S.; Eberman K. W.; Krause L. J.; Dahn J. R.

Synthesis, Characterization, and Electrochemical Behavior of Improved Li[Ni;xCo1-2x;Mnx];O2(0.1⩽x⩽0.5);

Beattie S. D.; Dahn J. R.

Comparison of Electrodeposited Copper-Zinc Alloys Prepared Individually and Combinatorially

Fleischauer M. D.; Hatchard T. D.; Rockwell G. P.; Topple J. M.; Trussler S.; Jericho S. K.; Jericho M. H.; Dahn J. R.

Design and Testing of a 64-Channel Combinatorial Electrochemical Cell

Beaulieu L. Y.; Hatchard T. D.; Bonakdarpour A.; Fleischauer M. D.; Dahn J. R.

Reaction of Li with Alloy Thin Films Studied by In Situ AFM

Chen Zhaohui; Dahn J. R.

Studies of LiCoO2 Coated with Metal Oxides

Jiang J.; Dahn J. R.

Comparison of the Thermal Stability of Lithiated Graphite in LiBOB EC/DEC and in LiPF6 EC/DEC

Chen Zonghai; Christensen L.; Dahn J. R.

Comparison of PVDF and PVDF-TFE-P as Binders for Electrode Materials Showing Large Volume Changes in Lithium-Ion Batteries

Lu Zhonghua; Dahn J. R.

In Situ and Ex Situ XRD Investigation of Li[;CrxLi1/3-x/3;Mn2/3-2x/3;];O2(x=1/3) Cathode Material

Beattie S. D.; Dahn J. R.

Single-Bath Electrodeposition of a Combinatorial Library of Binary Cu1-x;Snx Alloys

Beattie S. D.; Dahn J. R.

Single Bath, Pulsed Electrodeposition of Copper-Tin Alloy Negative Electrodes for Lithium-ion Batteries

Hatchard T. D.; Topple J. M.; Fleischauer M. D.; Dahn J. R.

Electrochemical Performance of SiAlSn Films Prepared by Combinatorial Sputtering

Stevens D. A.; Dahn J. R.

Electrochemical Characterization of the Active Surface in Carbon-Supported Platinum Electrocatalysts for PEM Fuel Cells

Beattie S. D.; Hatchard T.; Bonakdarpour A.; Hewitt K. C.; Dahn J. R.

Anomalous, High-Voltage Irreversible Capacity in Tin Electrodes for Lithium Batteries

Cumyn Vivien K.; Fleischauer M. D.; Hatchard T. D.; Dahn J. R.

Design and Testing of a Low-Cost Multichannel Pseudopotentiostat for Quantitative Combinatorial Electrochemical Measurements on Large Electrode Arrays

Beaulieu L. Y.; Hatchard T. D.; Beattie S. D.; Dahn J. R.

The Electrochemical Reaction of Lithium with Tin Studied By In Situ AFM

Beaulieu L. Y.; Hewitt K. C.; Turner R. L.; Bonakdarpour A.; Abdo A. A.; Christensen L.; Eberman K. W.; Krause L. J.; Dahn J. R.

The Electrochemical Reaction of Li with Amorphous Si-Sn Alloys

Chen Zhaohui; Lu Zhonghua; Dahn J. R.

Staging Phase Transitions in LixCoO2

Lu Zhonghua; Dahn J. R.

Structure and Electrochemistry of Layered Li[;CrxLi(1/3-x/3);Mn(2/3-2x/3);];O2

MacNeil D. D.; Lu Z.; Dahn J. R.

Structure and Electrochemistry of Li[;NixCo1-2x;Mnx];O2(0⩽x⩽1/2);

Chen Zhaohui; Dahn J. R.

Reducing Carbon in LiFePO4/C Composite Electrodes to Maximize Specific Energy, Volumetric Energy, and Tap Density

Lu Zhonghua; Thomas C. L.; Donaberger R. A.; Dahn J. R.

T2 and O2 Li2/3[;CoxNi1/3-x/2;Mn2/3-x/2;];O2 Electrode Materials

MacNeil D. D.; Dahn J. R.

The Reactions of Li0.5CoO2 with Nonaqueous Solvents at Elevated Temperatures

Lu Zhonghua; Dahn J. R.

Understanding the Anomalous Capacity of Li/Li[;NixLi(1/3-2x/3);Mn(2/3-x/3);];O2 Cells Using In Situ X-Ray Diffraction and Electrochemical Studies

Lu Zhonghua; Beaulieu L. Y.; Thomas C. L.; Donaberger R. A.; Dahn J. R.

Synthesis, Structure, and Electrochemical Behavior of Li[Ni;xLi1/3-2x/3;Mn2/3-x/3;];O2

Obrovac M. N.; Dahn J. R.

Electrochemically Active Lithia/Metal and Lithium Sulfide/Metal Composites

Lu Zhonghua; MacNeil D. D.; Dahn J. R.

Layered Li[;NixCo1-2x;Mnx];O2 Cathode Materials for Lithium-Ion Batteries

Lu Zhonghua; Dahn J. R.

In Situ X-Ray Diffraction Study of P2-Na2/3[;Ni1/3Mn2/3];O2

MacNeil D. D.; Dahn J. R.

The Reaction of Charged Cathodes with Nonaqueous Solvents and Electrolytes: II. LiMn2O4 charged to 4.2 V

MacNeil D. D.; Dahn J. R.

The Reaction of Charged Cathodes with Nonaqueous Solvents and Electrolytes: I. Li0.5CoO2

Lu Zhonghua; MacNeil D. D.; Dahn J. R.

Layered Cathode Materials Li[;NixLi(1/3-2x/3);Mn(2/3-x/3);];O2 for Lithium-Ion Batteries

Beaulieu L. Y.; Eberman K. W.; Turner R. L.; Krause L. J.; Dahn J. R.

Colossal Reversible Volume Changes in Lithium Alloys

Beaulieu L. Y.; Cumyn V. K.; Eberman K. W.; Krause L. J.; Dahn J. R.

A system for performing simultaneous in situ atomic force microscopy/optical microscopy measurements on electrode materials for lithium-ion batteries

Stevens D. A.; Dahn J. R.

The Mechanisms of Lithium and Sodium Insertion in Carbon Materials

Hatchard T. D.; MacNeil D. D.; Basu A.; Dahn J. R.

Thermal Model of Cylindrical and Prismatic Lithium-Ion Cells

Lu Zhonghua; Dahn J. R.

Can All the Lithium be Removed from T2-Li2/3[Ni;1/3Mn2/3]O;2?

MacNeil D. D.; Hatchard T. D.; Dahn J. R.

A Comparison Between the High Temperature Electrode /Electrolyte Reactions of ;LixCoO2 and LixMn2O4

Obrovac M. N.; Sanderson R. J.; Dunlap R. A.; Dahn J. R.

The Electrochemical Displacement Reaction of Lithium with Metal Oxides

Hewitt K. C.; Beaulieu L. Y.; Dahn J. R.

Electrochemistry of InSb as a Li Insertion Host: Problems and Prospects

Lu Zhonghua; Dahn J. R.

The Effect of Co Substitution for Ni on the Structure and Electrochemical Behavior of T2 and O2 Structure Li2/3[;CoxNi1/3-x;Mn2/3];O2

Stevens D. A.; Dahn J. R.

An In Situ Small‐Angle X‐Ray Scattering Study of Sodium Insertion into a Nanoporous Carbon Anode Material within an Operating Electrochemical Cell

Mueller-Neuhaus J. R.; Dunlap R. A.; Dahn J. R.

Understanding Irreversible Capacity in LixNi1-y;FeyO2 Cathode Materials

Beaulieu L. Y.; Dahn J. R.

The Reaction of Lithium with Sn‐Mn‐C Intermetallics Prepared by Mechanical Alloying

Beaulieu L. Y.; Larcher D.; Dunlap R. A.; Dahn J. R.

Reaction of Li with Grain‐Boundary Atoms in Nanostructured Compounds

Paulsen J. M.; Larcher D.; Dahn J. R.

O2 Structure Li2/3[;Ni1/3Mn2/3];O2; A New Layered Cathode Material for Rechargeable Lithium Batteries III. Ion Exchange

Paulsen J. M.; Dahn J. R.

O2‐Type ;Li2/3[;Ni1/3Mn2/3];O2; A New Layered Cathode Material for Rechargeable Lithium Batteries II. Structure, Composition, and Properties

Hatchard T. D.; MacNeil D. D.; Stevens D. A.; Christensen L.; Dahn J. R.

Importance of Heat Transfer by Radiation in Li‐Ion; Batteries during Thermal Abuse

Larcher D.; Beaulieu L. Y.; Mao O.; George A. E.; Dahn J. R.

Study of the Reaction of Lithium with Isostructural A2B and Various AlxB Alloys

Larcher D.; Beaulieu L. Y.; MacNeil D. D.; Dahn J. R.

In Situ X‐Ray Study of the Electrochemical Reaction of Li with ;η′‐;Cu6Sn5

Stevens D. A.; Dahn J. R.

High Capacity Anode Materials for Rechargeable Sodium‐Ion Batteries

Obrovac M. N.; Dahn J. R.

Implications of finite-size and surface effects on nanosize intercalation materials

MacNeil D. D.; Christensen L.; Landucci J.; Paulsen J. M.; Dahn J. R.

An Autocatalytic Mechanism for the Reaction of LixCoO2 in Electrolyte at Elevated Temperature

Dahn J. R.; Seel J. A.

Energy and Capacity Projections for Practical Dual‐Graphite Cells

Seel J. A.; Dahn J. R.

Electrochemical Intercalation of PF6 into Graphite

Paulsen J. M.; Thomas C. L.; Dahn J. R.

O2 Structure Li2/3;[;Ni1/3;Mn2/3;];O2; A New Layered Cathode Material for Rechargeable Lithium Batteries. I. Electrochemical Properties

Paulsen J. M.; Mueller-Neuhaus J. R.; Dahn J. R.

Layered LiCoO2 with a Different Oxygen Stacking (O2 Structure) as a Cathode Material for Rechargeable Lithium Batteries

MacNeil D. D.; Larcher D.; Dahn J. R.

Comparison of the Reactivity of Various Carbon Electrode Materials with Electrolyte at Elevated Temperature

Paulsen J. M.; Thomas C. L.; Dahn J. R.

Layered Li‐Mn‐Oxide with the O2 Structure; A Cathode Material for Li‐Ion Cells Which Does Not Convert to Spinel

Richard M. N.; Dahn J. R.

Accelerating Rate Calorimetry Study on the Thermal Stability of Lithium Intercalated Graphite in Electrolyte. II. Modeling the Results and Predicting Differential Scanning Calorimeter Curves

Richard M. N.; Dahn J. R.

Accelerating Rate Calorimetry Study on the Thermal Stability of Lithium Intercalated Graphite in Electrolyte. I. Experimental

Dunlap R. A.; Mao Ou; Dahn J. R.

Application of in situ Mössbauer effect methods for the study of electrochemical reactions in lithium-ion battery electrode materials

Mao Ou; Dahn J. R.

Mechanically Alloyed Sn‐Fe(‐C) Powders as Anode Materials for Li‐Ion Batteries; III. ;Sn2Fe:SnFe3C Active/Inactive Composites

Mao Ou; Dahn J. R.

Mechanically Alloyed Sn‐Fe(‐C) Powders as Anode Materials for Li‐Ion Batteries; II. The Sn‐Fe System

Mao Ou; Dunlap R. A.; Dahn J. R.

Mechanically Alloyed Sn‐Fe(‐C) Powders as Anode Materials for Li‐Ion Batteries; I. The ;Sn2Fe‐C; System

Courtney Ian A.; McKinnon W. R.; Dahn J. R.

On the Aggregation of Tin in SnO Composite Glasses Caused by the Reversible Reaction with Lithium

Mao O.; Turner R. L.; Courtney I. A.; Fredericksen B. D.; Buckett, M. I.; Krause L. J.; Dahn J. R.

Active/Inactive Nanocomposites as Anodes for Li‐Ion; Batteries

Courtney I. A.; Tse J. S.; Mao Ou; Hafner J.; Dahn J. R.

Ab initio calculation of the lithium-tin voltage profile

Mao Ou; Dunlap R. A.; Courtney I. A.; Dahn J. R.

In Situ Mössbauer Effect Studies of the Electrochemical Reaction of Lithium with Mechanically Alloyed ;Sn2Fe

Kötschau I. M.; Dahn J. R.

In Situ X‐Ray Study of ;LiMnO2

Buiel Edward; George A. E.; Dahn J. R.

On the Reduction of Lithium Insertion Capacity in Hard‐Carbon Anode Materials with Increasing Heat‐Treatment Temperature

Buiel Edward; Dahn J. R.

Reduction of the Irreversible Capacity in Hard‐Carbon Anode Materials Prepared from Sucrose for Li‐Ion Batteries

Obrovac M. N.; Gao Yuan; Dahn J. R.

Explanation for the 4.8-V plateau in LiCrxMn2-x;O4

Dahn J. R.; Zheng Tao; Thomas C. L.

Structure and Electrochemistry of Li2CrxMn2-x;O4 for 1.0 ⩽ ;x ⩽ 1.5

Schilling Oliver; Dahn J. R.

Thermodynamic Stability of Chemically Delithiated Li(;LixMn2-x;);O4

Xing Weibing; Dunlap R. A.; Dahn J. R.

Studies of Lithium Insertion in Ballmilled Sugar Carbons

Obrovac M. N.; Gao Yuan; Richard M. N.; Dahn J. R.

Use of carbon black to eliminate surface charging effects in photoelectron spectroscopy measurements of powders

Courtney Ian A.; Dahn J. R.

Key Factors Controlling the Reversibility of the Reaction of Lithium with SnO2 and Sn2BPO6 Glass

Zheng Tao; Dahn J. R.

Lattice-gas model to understand voltage profiles of LiNixMn2-x;O4/Li electrochemical cells

Xing Weibing; Wilson A. M.; Eguchi K.; Zank G.; Dahn J. R.

Pyrolyzed Polysiloxanes for Use as Anode Materials in Lithium‐Ion Batteries

Courtney Ian A.; Dahn J. R.

Electrochemical and In Situ X‐Ray Diffraction Studies of the Reaction of Lithium with Tin Oxide Composites

Xing Weibing; Dahn J. R.

Study of Irreversible Capacities for Li Insertion in Hard and Graphitic Carbons

Richard M. N.; Koetschau I.; Dahn J. R.

A Cell for In Situ X‐Ray Diffraction Based on Coin Cell Hardware and Bellcore Plastic Electrode Technology

Zhong Qiming; Bonakdarpour Arman; Zhang Meijie; Gao Yuan; Dahn J. R.

Synthesis and Electrochemistry of LiNixMn2-x;O4

Gao Yuan; Myrtle K.; Zhang Meijie; Reimers J. N.; Dahn J. R.

Valence band of LiNixMn2-;xO4 and its effects on the voltage profiles of LiNixMn2-;xO4/Li electrochemical cells

Xing Weibing; Gibaud A.; Zheng Tao; Xue J. S.; Dahn J. R.

Correlation Between Lithium Intercalation Capacity and Microstructure in Hard Carbons

Xing W.; Xue J. S.; Dahn J. R.

Optimizing Pyrolysis of Sugar Carbons for Use as Anode Materials in Lithium‐Ion Batteries

Gao Yuan; Richard M. N.; Dahn J. R.

Photoelectron spectroscopy studies of Li1+xMn2-;xO4 for Li ion battery applications

Zhang Meijie; Dahn J. R.

Electrochemical Lithium Intercalation in VO2(B) in Aqueous Electrolytes

Gao Yuan; Reimers J. N.; Dahn J. R.

Changes in the voltage profile of Li/Li1+xMn2-;xO4 cells as a function of x

Naeini J. G.; Way B. M.; Dahn J. R.; Irwin J. C.

Raman scattering from boron‐substituted carbon films

Zheng Tao; McKinnon W. R.; Dahn J. R.

Hysteresis during Lithium Insertion in Hydrogen‐Containing Carbons

Gao Yuan; Dahn J. R.

The High Temperature Phase Diagram of Li1+x;Mn2-x;O4 and Its Implications

Zheng Tao; Dahn J. R.

Effect of turbostratic disorder on the staging phase diagram of lithium‐intercalated graphitic carbon hosts

Gao Yuan; Dahn J. R.

Synthesis and Characterization of Li1+x;Mn2-x;O4 for Li‐Ion Battery Applications

Zheng Tao; Zhong Q.; Dahn J. R.

High‐Capacity Carbons Prepared from Phenolic Resin for Anodes of Lithium‐Ion Batteries

Xue J. S.; Dahn J. R.

Dramatic Effect of Oxidation on Lithium Insertion in Carbons Made from Epoxy Resins

Xue J. S.; Myrtle K.; Dahn J. R.

An Epoxy‐Silane Approach to Prepare Anode Materials for Rechargeable Lithium Ion Batteries

Koetschau I.; Richard M. N.; Dahn J. R.; Soupart J. B.; Rousche J. C.

Orthorhombic LiMnO2 as a High Capacity Cathode for Li‐Ion Cells

Zheng Tao; Liu Yinghu; Fuller E. W.; Tseng Sheilla; von Sacken U.; Dahn J. R.

Lithium Insertion in High Capacity Carbonaceous Materials

Li W.; Dahn J. R.

Lithium‐Ion Cells with Aqueous Electrolytes

Gao Yuan; Dahn J. R.

Thermogravimetric analysis to determine the lithium to manganese atomic ratio in Li1+xMn2-;xO4

Wilson A. M.; Way B. M.; Dahn J. R.; van Buuren T.

Nanodispersed silicon in pregraphitic carbons

Wilson A. M.; Dahn J. R.

Lithium Insertion in Carbons Containing Nanodispersed Silicon

Zheng Tao; Reimers J. N.; Dahn J. R.

Effect of turbostratic disorder in graphitic carbon hosts on the intercalation of lithium

Li W.; McKinnon W. R.; Dahn J. R.

Lithium Intercalation from Aqueous Solutions

Fey George Ting-Kuo; Li Wu; Dahn J. R.

LiNiVO4: A 4.8 Volt Electrode Material for Lithium Cells

Antaya M.; Cearns K.; Preston J. S.; Reimers J. N.; Dahn J. R.

In situ growth of layered, spinel, and rock‐salt LiCoO;2 by laser ablation deposition

Way B. M.; Dahn J. R.

The Effect of Boron Substitution in Carbon on the Intercalation of Lithium in Lix(;BzC1-z;);6

Weydanz W. J.; Way B. M.; van Buuren T.; Dahn J. R.

Behavior of Nitrogen‐Substituted Carbon ;(;NzC1-z;); in Li/Li(;NzC1-z;);6 Cells

Dahn J. R.; Way B. M.; Fuller E. W.; Weydanz W. J.; Tse J. S.; Klug D. D.; Van Buuren T.; Tiedje T.

X‐ray diffraction and x‐ray absorption studies of porous silicon, siloxene, heat‐treated siloxene, and layered polysilane

Li W.; Reimers J. N.; Dahn J. R.

Lattice‐gas‐model approach to understanding the structures of lithium transition‐metal oxides Li;MO2

Dahn J. R.; Way B. M.; Fuller E.; Tse J. S.

Structure of siloxene and layered polysilane (Si6H6)

Reimers J. N.; Fuller Eric W.; Rossen Erik; Dahn J. R.

Synthesis and Electrochemical Studies of LiMnO2 Prepared at Low Temperatures

van Buuren T.; Tiedje T.; Dahn J. R.; Way B. M.

Photoelectron spectroscopy measurements of the band gap in porous silicon

Reimers J. N.; Dahn J. R.; von Sacken U.

Effects of Impurities on the Electrochemical Properties of LiCoO2

Reimers Jan N.; Li W.; Dahn J. R.

Short‐range cation ordering in Li;xNi2-;xO2

Antaya M.; Dahn J. R.; Preston J. S.; Rossen E.; Reimers J. N.

Preparation and Characterization of LiCoO2 Thin Films by Laser Ablation Deposition

Reimers J. N.; Dahn J. R.

Application of ab initio methods for calculations of voltage as a function of composition in electrochemical cells

Tiedje T.; Colbow K. M.; Gao Y.; Dahn J. R.; Reimers J. N.; Houghton D. C.

Role of Coulomb repulsion in 4f orbitals in electrical excitation of rare‐earth impurities in semiconductors

Zhong Q.; Dahn J. R.; Colbow K.

Dependence of the Intercalation of Li in WO3 on the Preparation of the WO3 Host

Li W.; Reimers J. N.; Dahn J. R.

Crystal structure of LixNi2-;xO2 and a lattice‐gas model for the order‐disorder transition

Reimers Jan N.; Dahn J. R.

Electrochemical and In Situ X‐Ray Diffraction Studies of Lithium Intercalation in ;LixCoO2

Zhong Q.; Dahn J. R.; Colbow K.

Lithium intercalation into WO3 and the phase diagram of LixWO3

Way B. M.; Dahn J. R.; Tiedje T.; Myrtle K.; Kasrai M.

Preparation and characterization of BxC1-;x thin films with the graphite structure

Colbow K. M.; Gao Y.; Tiedje T.; Dahn J. R.; Reimers J. N.; Cramm S.

Interfacial band alignments for LaF3, NdF3, and TmF3 heterojunctions on Si(111)

van Buuren T.; Gao Y.; Tiedje T.; Dahn J. R.; Way B. M.

Evidence for quantum confinement in porous silicon from soft x‐ray absorption

Dahn J. R.; Reimers J. N.; Sleigh A. K.; Tiedje T.

Density of states in graphite from electrochemical measurements on Lix(C1-;zBz)6

Dahn J. R.; Reimers J. N.; McKinnon W. R.; Sleigh A. K.; Gao Y.; Tiedje T.; Cramm S.

Correlation between x‐ray absorption and chemical potential measurements in lithium intercalated carbons

Dahn J. R.

Phase diagram of LixC6

Colbow K. M.; Gao Y.; Tiedje T.; Dahn J. R.; Eberhardt W.

Photoemission study of the ZnSe/GaAs (100) interface: Composition and band offset

Dahn J. R.; von Sacken U.; Juzkow M. W.; Al-Janaby H.

Rechargeable LiNiO2/;Carbon Cells