Energy Storage Materials

Papers
(The H4-Index of Energy Storage Materials is 115. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-05-01 to 2026-05-01.)
ArticleCitations
Nanoporous polymeric membranes with tunable 10-nm pore sizes for fast Li+ ion mobility and enhanced cyclability in lithium metal batteries462
Can sulfide solid electrolytes for lithium-ion batteries be handled in dry rooms? – A multiprobe approach393
Multifunctional amino-functionalized Zr-based metal-organic frameworks: A breakthrough in enhancing the stability and performance of Ni-rich cathode Li metal batteries in water-prone environments386
Initiating cationic-anionic chemistry with stepwise surface-to-inner conversion in copper selenide superstructures for high-energy rechargeable magnesium batteries381
Zwitterionic interface engineering enables ultrathin composite membrane for high-rate vanadium flow battery373
Editorial Board334
Thick electrodes for electrochemical relithiation to regenerate spent battery powder303
Lattice-oxygen-driven selective oxidation strategy for stable argyrodite solid-state lithium metal batteries289
Interfacial engineering of sNCM811 cathodes with P3HT coatings for enhanced ion/electron transport and oxygen stability in sulfide-based all-solid-state batteries273
An aqueous Zn||Br2 battery by electrolyte activating the positive charge of cyanidin additive to resolve challenges of both anode and cathode258
Advanced design strategies for enhancing the thermal stability of Ni-rich co-free cathodes towards high-energy power lithium-ion batteries257
Molecular tailoring of MnO2 by bismuth doping to achieve aqueous zinc-ion battery with capacitor-level durability255
Two Birds with One Stone: A NaCl-Assisted Strategy toward MoTe2 Nanosheets Nanoconfined in 3D Porous Carbon Network for Sodium-Ion Battery Anode241
Central metal coordination environment optimization enhances Na diffusion and structural stability in Prussian blue analogues238
Polymer dielectrics intercalated with a non-contiguous granular nanolayer for high-temperature pulsed energy storage224
An optimized electrically conductive Si-Fe matrix to boost the performance of Si electrodes in Li-ion batteries223
Acetamide-based hydrated eutectic electrolytes for supercapacitors with high voltage and low self-discharge222
Important consideration for interface engineering of carbon-based materials in sulfide all-solid lithium-ion batteries221
Ion-selective covalent organic frameworks boosting electrochemical energy storage and conversion: A review218
Fabricating high-energy-density bimodal cathodes using radially oriented rod-shaped primary particles214
Novel air-rechargeable aqueous Zn-based batteries with N-doped hierarchical-porous carbon as the capacitor-type cathode211
Polarization-Induced full-space electric field enables photo-assisted Li-O2 batteries with low overpotential and long cycle life209
Tailoring the electronic microenvironment of COF nanochannels enable fast ion transport kinetics in lithium metal batteries203
Transformer enables ion transport behavior evolution and conductivity regulation for solid electrolyte202
Reduced eg-t2g gap of high-entropy alloys enables lithium-sulfur battery to stably operate under ultra-wide temperature range200
Tailored electronegative-driven MOF channels with bimetallic coordination for synergistic Zn2+ transport enabling dendrite-free Zn anodes199
Dual-functional chloropyrazine additives for enhanced performance of lithium-sulfur batteries196
Solid polymer electrolytes with fragment-separated microphase for advanced Li ion transport and highly stable lithium metal batteries196
Crystalline molybdenum carbide−amorphous molybdenum oxide heterostructures: In situ surface reconfiguration and electronic states modulation for Li−S batteries195
Interfacial bonding enhances MXene/Sb2Se3 composites toward cyclic stability and fast aluminum storage194
Dynamic stable interface between CNT and nanosilicon for robust anode with large capacity and high rate performance193
Improving the rate performance of lithium metal anodes: In-situ formation of 3D interface structures by mechanical mixing with sodium metal191
Glutamate as a bio-compatible electrolyte additive for sustainable high-performance magnesium-air batteries190
A review of flexible potassium-ion based energy storage devices186
Metal-N/P coordination assisted construction of robust heterointerface for stable and superior-rate electrodes in battery-type supercapacitors186
Evaluating the functions of the key dopant elements in multi-metal oxide electrocatalysts for high-performance Li-O2 batteries182
Direct evidence of an unanticipated crystalline phase responsible for the high performance of few-layered-MoS2 anodes for Na-ion batteries181
Composite lithium metal anode with fast ion conduction and interface passivation for sulfide-based all-solid-state batteries180
High-performance environmental adaptive microsupercapacitors from multifunctional hydrogel via modulating ionic hydration and hydrogen bonds179
Degradation mechanism and assessment for different cathode based commercial pouch cells under different pressure boundary conditions178
One plus one can be greater than two: Synergistic cathode–electrolyte engineering for high-voltage Ni-Rich cathodes175
A triphasic membrane-less battery based on salting-out effect employing metal-free redox materials175
Corrigendum to “Modulating metal-free Zn-bromine batteries with covalent organic framework anode” [Energy Storage Materials 67 (2024) 103294]173
Flexible solid-state lithium-sulfur batteries based on structural designs172
New insights into the critical role of inactive element substitution in improving the rate performance of sodium oxide cathode material169
In-situ constructing surface intergranular carbonaceous conductive frameworks and protective layers of Ni-rich layered oxide cathodes167
Interface Compatibility in Sulfide-Based All-Solid-State Batteries: Challenges and Strategies at the Electrode–Electrolyte Interfaces165
Advancing high-voltage halide-based solid-state batteries: Interfacial challenges, material innovations, and applications164
Mitigating chain degradation of lithium-rich manganese-based cathode material by surface engineering163
The intermolecular interaction enables ordered ion transport in quasi-solid-state electrolyte for ultra-long life lithium-metal battery161
Specialized convolutional transformer networks for estimating battery health via transfer learning160
Toward breakthroughs in wide-temperature aqueous sodium-ion batteries: Challenges, advances and prospects160
Multiscale interfacial stress evolution and regulation strategies for lithium metal deposition in solid-state batteries159
Identifying the importance of functionalization evolution during pre-oxidation treatment in producing economical asphalt-derived hard carbon for Na-ion batteries158
Materials advancements in solid-state inorganic electrolytes for highly anticipated all solid Li-ion batteries158
Rate-limiting mechanism of all-solid-state battery unravelled by low-temperature test-analysis flow157
Tailoring the nucleation and growth routes of discharge products for lithium-oxygen batteries through the facet engineering of Ni2P catalysts155
Enhancing high-rate plateau capacity of hard carbons by TiC-mediated closed pore formation and heterojunction engineering for sodium-ion batteries154
Progress and challenges in ultrasonic technology for state estimation and defect detection of lithium-ion batteries154
Strategically tailored polyethylene separator parameters enable cost-effective, facile, and scalable development of ultra-stable liquid and all-solid-state lithium batteries152
NASICON-type LATP solid electrolytes for lithium metal batteries: Fundamentals to AI-driven materials design151
Efficient implementation of kilogram-scale, high-capacity and long-life Si-C/TiO2 anodes150
Electrodeposition of metal foils for battery current collectors: Status and challenges149
Breaking kinetic bottlenecks: A full-range kinetic analysis to accelerate industrial-scalable ultrahigh-nickel cathodes147
Electrolytes for bromine-based flow batteries: Challenges, strategies, and prospects147
Active stress-dissipating Si hybrid anode stabilizes sulfide solid-state battery interface146
Thermal effects of solid-state batteries at different temperature: Recent advances and perspectives146
Regulating closed-pore concentration of hard carbon for ultrahigh plateau capacity sodium-ion batteries146
Regulating the Fe-spin state by Fe/Fe3C neighbored single Fe-N4 sites in defective carbon promotes the oxygen reduction activity145
Green synthesis and applications of MXene for lithium–sulfur batteries145
Interface engineering of electron-ion dual transmission channels for ultra-long lifespan quasi-solid zinc-ion batteries145
Conversion mechanism of sulfur in room-temperature sodium-sulfur battery with carbonate-based electrolyte144
A design guideline of graphite/silicon composite electrode for extremely fast charging Li ion batteries144
Monitoring and control of internal temperature in power batteries: A comprehensive review144
A data-driven method for extracting aging features to accurately predict the battery health144
Balance of sulfur doping content and conductivity of hard carbon anode for high-performance K-ion storage143
Enabling durable electrolyte-free silicon anode in thin sulfide electrolyte membrane-based all-solid-state lithium batteries via failure mechanism study143
Molecularly engineered three-dimensional covalent organic framework protection films for highly stable zinc anodes in aqueous electrolyte142
Trade-off between reversibility and fast Zn2+ kinetics: Toward ultra-stable low-temperature aqueous zinc-ion batteries141
Decorating silicon surface by an electroactive covalent organic framework to develop high-performance lithium-ion batteries141
Upgrading carbon utilization and green energy storage through oxygen-assisted lithium-carbon dioxide batteries138
Competitive solvation with regulated ion-coordination chemistry toward dendrite-free and long-life Zn metal anodes137
Coordination environment modulation to optimize d-orbit arrangement of Mn-based MOF electrocatalyst for lithium-oxygen battery135
Construction of lithophilic solid electrolyte interfaces with a bottom-up nucleation barrier difference for low-N/P ratio Li-metal batteries133
An induced recrystallization self-healing separator for stabilizing ultra-long cycles of aqueous sodium ion batteries133
Decoupled measurement and modeling of interface reaction kinetics of ion-intercalation battery electrodes133
Metal organic framework-based cathode materials for aqueous zinc-ion batteries: Recent advances and perspectives132
Hierarchical porous carbon derived from kapok fibers for biocompatible and ultralong cycling zinc-ion capacitors130
Durable high voltage solid-state sodium batteries with Pseudocapacitive P2 layered oxide cathode130
Spherical metal mechanism toward revolution of Zn growth for ultrafast plating/stripping kinetics130
Electrolyte-free graphite electrode with enhanced interfacial conduction using Li+-conductive binder for high-performance all-solid-state batteries129
Failure mechanisms and current collector design for sodium metal anodes: From thermodynamic-kinetic coupling to structural-functional optimization129
High-efficiency NaCl presodiation agent for sodium-ion batteries128
Engineering cyano groups into hydrogen-bonded organic supramolecules with multi redox centers for high-performance Li-ion battery cathode126
Origin and suppression of structural degradation in Ni-rich layered oxide cathodes at elevated temperatures126
Enhancing feature importance analysis in battery research: a statistical methods perspective on machine learning limitations126
Electrochemical-mechanical coupling failure mechanism of composite cathode in all-solid-state batteries125
Solvent-free one-step green synthesis of MXenes by “gas-phase selective etching”124
Emerging organic polymers as electrode materials for sodium-ion batteries: Mechanism, characteristics, challenges, and strategies124
Electrolyte with single salt and single solvent enables FeS2-based lithium metal batteries with all-climate high performance123
Consolidating cationic and anionic redox by all-in-one approach for air-stable layered sodium-ion oxide cathodes122
Organic active materials in rechargeable batteries: Recent advances and prospects121
Low-cost and long-life Zn/Prussian blue battery using a water-in-ethanol electrolyte with a normal salt concentration120
Understanding electrolyte infiltration mechanisms in high-density battery electrodes: A multimodal approach119
Tyrosine additives with rich-polar functional groups provide multi-protections for ultra-stable zinc metal anodes119
Construction of hydrophilic and hydrophobic hybrid interface to achieve controlled zinc deposition for aqueous Zn-ion batteries118
Electroactive-catalytic conductive framework for aluminum-sulfur batteries118
Facilitating uniform lithium deposition via nanoconfinement of free amide molecules in solid electrolyte complexion for lithium metal batteries118
Self-assembly of super-hydrophobic and zincophilic surface monolayer for durable Zn anodes117
Tuning ion transport and interfacial stability in solid-state electrolytes: The critical role of dielectric constant117
Quasi-solid-state sulfur cathode with ultralean electrolyte via in situ polymerization117
Ultrafast microwave heated form-stable thermal package providing operating temperature for PEO all-solid-state batteries116
Thermal decomposition mechanism of lithium methyl carbonate in solid electrolyte interphase layer of lithium-ion battery116
Creating electrostatic shielding effects through dual-salt strategy to regulate coordination environment of Li⁺ and realize high-performance all-solid-state lithium metal batteries116
In situ generated composite gel polymer electrolyte with crosslinking structure for dendrite-free and high-performance sodium metal batteries115
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