Materials Sciences
Parent: Energy Sciences
eScholarship stats: Breakdown by Item for April through July, 2024
| Item | Title | Total requests | Download | View-only | %Dnld |
|---|---|---|---|---|---|
| 0w02253p | Understanding interface stability in solid-state batteries | 430 | 385 | 45 | 89.5% |
| 3h26p692 | Commentary: The Materials Project: A materials genome approach to accelerating materials innovation | 370 | 73 | 297 | 19.7% |
| 30v0j6cc | Python Materials Genomics (pymatgen): A robust, open-source python library for materials analysis | 282 | 192 | 90 | 68.1% |
| 51w3s3s1 | Thin-film ferroelectric materials and their applications | 263 | 237 | 26 | 90.1% |
| 4q9585s0 | Wearable sweat sensors | 257 | 179 | 78 | 69.6% |
| 9q83p4fg | Flexible Electronics toward Wearable Sensing | 243 | 214 | 29 | 88.1% |
| 4w9922zh | Moiré photonics and optoelectronics | 231 | 139 | 92 | 60.2% |
| 9wh2w9rg | X-Ray Interactions: Photoabsorption, Scattering, Transmission and Reflection E = 50-30,000 eV, Z = 1-92 | 205 | 143 | 62 | 69.8% |
| 4212s92j | Carbon capture and storage (CCS): the way forward | 200 | 104 | 96 | 52.0% |
| 082091b4 | Unsupervised word embeddings capture latent knowledge from materials science literature | 197 | 102 | 95 | 51.8% |
| 2d96v1kv | Janus monolayers of transition metal dichalcogenides | 196 | 162 | 34 | 82.7% |
| 95r3v8xk | Efficient hydrogen peroxide generation using reduced graphene oxide-based oxygen reduction electrocatalysts | 194 | 83 | 111 | 42.8% |
| 0m61h01k | Optical Lithography | 192 | 125 | 67 | 65.1% |
| 14t5962n | In-situ X-ray photoelectron spectroscopy studies of water on metals and oxides at ambient conditions | 192 | 171 | 21 | 89.1% |
| 5jn8d415 | Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis | 192 | 173 | 19 | 90.1% |
| 7b00f0nt | Promises and Challenges of Next-Generation “Beyond Li-ion” Batteries for Electric Vehicles and Grid Decarbonization | 192 | 75 | 117 | 39.1% |
| 7d46k9f5 | Synthesis, physics, and applications of ferroelectric nanomaterials | 188 | 19 | 169 | 10.1% |
| 18h3f02f | Ultrathin ferroic HfO2–ZrO2 superlattice gate stack for advanced transistors | 179 | 122 | 57 | 68.2% |
| 6jn170sr | Matminer: An open source toolkit for materials data mining | 179 | 44 | 135 | 24.6% |
| 7dm4g62g | Catalyst electro-redeposition controls morphology and oxidation state for selective carbon dioxide reduction | 176 | 96 | 80 | 54.5% |
| 9mx648vg | Quantum Dots: Theory | 172 | 154 | 18 | 89.5% |
| 6258h0jq | 25th Anniversary Article: Semiconductor Nanowires – Synthesis, Characterization, and Applications | 167 | 74 | 93 | 44.3% |
| 0g43d16v | Relationship between Conductivity, Ion Diffusion, and Transference Number in Perfluoropolyether Electrolytes | 166 | 27 | 139 | 16.3% |
| 42n664kt | Enabling ultra-low-voltage switching in BaTiO3 | 165 | 108 | 57 | 65.5% |
| 6gd901s3 | Electronic energy transfer at semiconductor interfaces. I. Energy transfer from two-dimensional molecular films to Si(111) | 161 | 6 | 155 | 3.7% |
| 38j557sc | High Defect Tolerance in Lead Halide Perovskite CsPbBr3 | 159 | 65 | 94 | 40.9% |
| 48p5g0ws | Designing materials for electrochemical carbon dioxide recycling | 159 | 130 | 29 | 81.8% |
| 6rw4t3cw | Emerging exciton physics in transition metal dichalcogenide heterobilayers | 156 | 54 | 102 | 34.6% |
| 2vs0h0wg | Cooperative insertion of CO2 in diamine-appended metal-organic frameworks | 155 | 74 | 81 | 47.7% |
| 07h5f8vn | Preparing for the Next Generation of EUV Lithography at the Center for X-ray Optics | 153 | 43 | 110 | 28.1% |
| 945633cg | Polymers with Tailored Electronic Structure for High Capacity Lithium Battery Electrodes | 149 | 61 | 88 | 40.9% |
| 1xg7r273 | Thin‐Film Ferroelectrics | 148 | 81 | 67 | 54.7% |
| 83j0h96d | Cation-disordered rocksalt-type high-entropy cathodes for Li-ion batteries | 148 | 69 | 79 | 46.6% |
| 0fr1q984 | Temperature-adaptive radiative coating for all-season household thermal regulation | 147 | 52 | 95 | 35.4% |
| 8cb7t3xb | Cost and potential of metal–organic frameworks for hydrogen back-up power supply | 147 | 69 | 78 | 46.9% |
| 3wp842g6 | Giant spin transport anisotropy in magnetic topological insulators | 144 | 50 | 94 | 34.7% |
| 2dh7n094 | Dielectric polymers for high-temperature capacitive energy storage | 143 | 59 | 84 | 41.3% |
| 3ft5f2jx | Toughening materials: enhancing resistance to fracture | 142 | 17 | 125 | 12.0% |
| 57w4g6vc | Enhancement of Ferroelectric Curie Temperature in BaTiO3 Films via Strain‐Induced Defect Dipole Alignment | 142 | 61 | 81 | 43.0% |
| 85g9k1kq | <i>50th Anniversary Perspective</i>:z Phase Behavior of Polymer Solutions and Blends | 139 | 48 | 91 | 34.5% |
| 7256s0nq | On the fracture toughness of advanced materials | 138 | 103 | 35 | 74.6% |
| 8bb4g1gk | Semiconductor nanowire lasers | 137 | 46 | 91 | 33.6% |
| 1jz7t28v | Topological phases in polar oxide nanostructures | 136 | 86 | 50 | 63.2% |
| 688015nm | A Wearable Electrochemical Platform for Noninvasive Simultaneous Monitoring of Ca2+ and pH | 133 | 77 | 56 | 57.9% |
| 8bj5j5xd | Complete characterization of a lithium battery electrolyte using a combination of electrophoretic NMR and electrochemical methods | 133 | 18 | 115 | 13.5% |
| 9s9562w4 | Ternary NiMo-Bi liquid alloy catalyst for efficient hydrogen production from methane pyrolysis | 132 | 85 | 47 | 64.4% |
| 9138d67m | The Making and Breaking of Lead-Free Double Perovskite Nanocrystals of Cesium Silver–Bismuth Halide Compositions | 131 | 18 | 113 | 13.7% |
| 2xf0c3gx | Recent progresses on physics and applications of vanadium dioxide | 130 | 42 | 88 | 32.3% |
| 4t59495x | Supramolecular assembly of blue and green halide perovskites with near-unity photoluminescence | 130 | 50 | 80 | 38.5% |
| 8f53f26p | Passivating contacts for crystalline silicon solar cells | 129 | 69 | 60 | 53.5% |
Disclaimer: due to the evolving nature of the web traffic we receive and the methods we use to collate it, the data presented here should be considered approximate and subject to revision.