214 results on '"Peterson, Vanessa K."'
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52. Chromium Ion Pair Luminescence: A Strategy in Broadband Near-Infrared Light-Emitting Diode Design.
53. Crystallographic‐Site‐Specific Structural Engineering Enables Extraordinary Electrochemical Performance of High‐Voltage LiNi0.5Mn1.5O4 Spinel Cathodes for Lithium‐Ion Batteries.
54. Introduction
55. High‐Performance Perovskite Composite Electrocatalysts Enabled by Controllable Interface Engineering.
56. Data-processing technique for the Taipan "Be-filter" neutron spectrometer at the Australian Nuclear Science and Technology Organisation.
57. Interactions of Hydrating Tricalcium and Dicalcium Silicate using Time-Resolved Quasielastic Neutron Scattering
58. A Robust Coin‐Cell Design for In Situ Synchrotron‐based X‐Ray Powder Diffraction Analysis of Battery Materials.
59. Novel K rattling: A new route to thermoelectric materials?
60. Dual-supramolecular contacts induce extreme Hofmann framework distortion and multi-stepped spin-crossover.
61. Elucidation of the high-voltage phase in the layered sodium ion battery cathode material P3–Na0.5Ni0.25Mn0.75O2.
62. Developing high-voltage spinel LiNi0.5Mn1.5O4 cathodes for high-energy-density lithium-ion batteries: current achievements and future prospects.
63. A Long Cycle‐Life High‐Voltage Spinel Lithium‐Ion Battery Electrode Achieved by Site‐Selective Doping.
64. Bulk and Surface Properties Regulation of Single/Double Perovskites to Realize Enhanced Oxygen Evolution Reactivity.
65. Understanding Rechargeable Battery Function Using In Operando Neutron Powder Diffraction.
66. Monitoring the phase evolution in LiCoO2 electrodes during battery cycles using in‐situ neutron diffraction technique.
67. Designing a hybrid electrode toward high energy density with a staged Li+ and PF6 - deintercalation/intercalation mechanism.
68. Influence of Synthesis Routes on the Crystallography, Morphology, and Electrochemistry of Li2MnO3.
69. Neutron powder diffraction study of [D.sub.2] sorption in [Cu.sub.3][(1,3,5,-benzenetricarboxylate).sub.2]
70. Hydration of tricalcium and dicalcium silicate mixtures studied using quasielastic neutron scattering
71. Enhancing Oxygen Reduction Reaction Activity and CO2 Tolerance of Cathode for Low-Temperature Solid Oxide Fuel Cells by in Situ Formation of Carbonates.
72. Square Grid Metal–Chloranilate Networks as Robust Host Systems for Guest Sorption.
73. Hydrogen-Containing Na3HTi1-xMnxF8 Narrow-Band Phosphor for Light-Emitting Diodes.
74. Structural Evolution and High-Voltage Structural Stability of Li(NixMnyCoz)O2 Electrodes.
75. Anisotropic Thermal and Guest‐Induced Responses of an Ultramicroporous Framework with Rigid Linkers.
76. Effects of Fluorine and Chromium Doping on the Performance of Lithium-Rich Li1+xMO2 (M = Ni, Mn, Co) Positive Electrodes.
77. Li2TiSiO5: a low potential and large capacity Ti-based anode material for Li-ion batteries.
78. Flexible Yttrium Coordination Geometry Inhibits "Bare-Metal" Guest Interactions in the Metal-Organic Framework Y(btc).
79. The Origin of Capacity Fade in the Li2MnO3·LiMO22 (M = Li, Ni, Co, Mn) Microsphere Positive Electrode: An Operando Neutron Diffraction and Transmission X-ray Microscopy Study.
80. Crystallographic origin of cycle decay of the high-voltage LiNi0.5Mn1.5O4 spinel lithium-ion battery electrode.
81. Powder sample-positioning system for neutron scattering allowing gas delivery in top-loading cryofurnaces.
82. A comparative study of SrCo0.8Nb0.2O3−δ and SrCo0.8Ta0.2O3−δ as low-temperature solid oxide fuel cell cathodes: effect of non-geometry factors on the oxygen reduction reaction
83. Using neutron powder diffraction and first-principles calculations to understand the working mechanisms of porous coordination polymer sorbents.
84. Batteries & Supercaps: In Situ and Operando Methods for Energy Storage and Conversion.
85. Cover Picture: An Easy‐to‐Use Custom‐Built Cell for Neutron Powder Diffraction Studies of Rechargeable Batteries (Chem. Methods 10/2022).
86. In Situ Powder Diffraction Studies of Electrode Materials in Rechargeable Batteries.
87. Interplay between Electrochemistry and Phase Evolution of the P2-type Nax(Fe½Mn½)O2 Cathode for Use in Sodium-Ion Batteries.
88. In Situ Neutron Diffraction Monitoring of Li7La3Zr2O12 Formation: Toward a Rational Synthesis of Garnet Solid Electrolytes.
89. Evaluation of undoped and M-doped TiO2, where M = Sn, Fe, Ni/Nb, Zr, V, and Mn, for lithium-ion battery applications prepared by the molten-salt method.
90. A custom battery for operando neutron powder diffraction studies of electrode structure.
91. Electrochemistry and structure of the cobalt-free Li1+xMO2 (M = Li, Ni, Mn, Fe) composite cathode.
92. Comprehensive study of carbon dioxide adsorption in the metal-organic frameworks M2(dobdc) (M = Mg, Mn, Fe, Co, Ni, Cu, Zn).
93. Guest Adsorption in the Nanoporous Metal–OrganicFramework Cu3(1,3,5-Benzenetricarboxylate)2:Combined In SituX-ray Diffraction and VaporSorption.
94. Ultramicroporous MOF with High Concentration of VacantCuIISites.
95. Tuning pore size in a zirconium--tricarboxylate metal--organic framework.
96. Interpenetration as a Mechanism for Negative Thermal Expansion in the Metal-Organic Framework Cu3(btb)2 (MOF-14).
97. Lithium Migration in Li4Ti5O12Studied Using in Situ Neutron Powder Diffraction.
98. Overcharging a lithium-ion battery: Effect on the Li x C6 negative electrode determined by in situ neutron diffraction.
99. Structure,Atomistic Simulations, and Phase Transitionof Stoichiometric Yeelimite.
100. Negative Thermal Expansion in LnCo(CN)6 (Ln=La, Pr, Sm, Ho, Lu, Y): Mechanisms and Compositional Trends.
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