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381
Electrospun Si and Si/C Fiber Anodes for Li-Ion Batteries
Published 2023-11-01Subjects: Get full text
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382
Numerical simulation of the radiation field parameters of different composite anode targets
Published 2023-06-01“…The results were found to be useful in the design of composite anode targets to achieve low energy, high fluence, high conversion efficiency, and low transmission electron energy. …”
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383
Surface Microstructure and Performance of Anodized TZ30 Alloy in SBF Solution
Published 2022-04-01Subjects: Get full text
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384
Synthesis and Characterization of Ru‐Loaded Anodized Aluminum Oxide for Hydrogenation Catalysis
Published 2019-04-01Subjects: “…anodized aluminum oxide…”
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385
Scalable Fabrication of Si-Graphene Composite as Anode for Li-ion Batteries
Published 2022-10-01Subjects: Get full text
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386
Nanoparticles deposition effects on 1050A aluminum alloy anodic layers
Published 2020-01-01Subjects: Get full text
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387
Fabrication of nanoporous alumina by two-step anodization and studyof their structural properties
Published 2015-04-01Subjects: Get full text
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388
Organic Anode Materials for Lithium-Ion Batteries: Recent Progress and Challenges
Published 2022-12-01Subjects: Get full text
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389
Recent Progress in the Fabrication of Photonic Crystals Based on Porous Anodic Materials
Published 2023-05-01Subjects: “…anodic aluminum oxide (AAO)…”
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390
Deformation-tolerant metal anodes for flexible sodium–air fiber batteries
Published 2022-11-01“…Although flexible sodium–air (Na–air) batteries with high theoretical energy density offer promising opportunities for next-generation smart electronics, enhancing the safety and efficiency of flexible sodium metal anodes under dynamic and continuous deformation remains a challenge. …”
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391
Highly Reversible Zn Metal Anodes Enabled by Increased Nucleation Overpotential
Published 2023-07-01Get full text
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392
Carbon Nanowalls as Anode Materials with Improved Performance Using Carbon Nanofibers
Published 2023-09-01“…In this paper, a new synthesis of carbon nanofibers (CNFs)/carbon nanowalls (CNWs) was performed to improve the characteristics of anode materials of lithium-ion batteries by using the advantages offered by CNWs and CNFs. …”
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393
The New Method of XRD Measurement of the Degree of Disorder for Anode Coke Material
Published 2017-01-01Subjects: Get full text
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394
Gravure Printing of Graphite-Based Anodes for Lithium-Ion Printed Batteries
Published 2022-10-01Subjects: Get full text
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395
Optimization of Anodized-Aluminum Pressure-Sensitive Paint by Controlling Luminophore Concentration
Published 2010-07-01Subjects: “…anodized aluminum…”
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396
An Anisotropic Microstructure Evolution in a Solid Oxide Fuel Cell Anode
Published 2020-01-01“…The microstructural parameters were estimated based on the obtained digital representation of the anode microstructure. Anisotropy was discovered in two of the three phases that constitute the anode, namely nickel and pores. …”
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397
Predicting Capacity Fade in Silicon Anode-Based Li-Ion Batteries
Published 2021-03-01“…The results of these studies provide insight into the effects of anode particle size and electrolyte volume fraction on the behavior of silicon anode-based batteries with different positive electrodes. …”
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398
Production of Metallic Titanium by Electrowinning in Molten Salts of Titanium Oxycarbide Anode
Published 2021-12-01“…The closeness of the potentials of TiC<sub>x</sub>O<sub>y</sub> dissolution and Ti<sup>3+</sup>/Ti<sup>4+</sup> wave is an issue during the electrorefining of the anode. A low current density has to be applied to stay within the titanium oxycarbide dissolution and avoid the formation of Ti<sup>4+</sup>. …”
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399
Enhancing low-temperature characteristics of graphite anode by comprehensive modification of electrolyte
Published 2023-12-01“…The performance of lithium-ion batteries is significantly deteriorated at low temperatures due to the components’ properties limitations such as the electrolyte viscosity increase and freezing accompanied with a decrease in ionic conductivity, rise of charge transfer resistance, and a substantial capacity loss (over 50 % of room-temperature capacity) in batteries with commercial electrolytes and graphite anodes, even at 0 °C. In this work, a complex modification of lithium salt and solvents of the electrolyte was applied simultaneously to develop an optimal electrolyte system with improved low-temperature characteristics for a Li/graphite half-cell. …”
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400
Throwing Power of Embedded Anodes for the Galvanic Cathodic Protection of Steel in Concrete
Published 2021-05-01Subjects: Get full text
Article