3D Architected Carbon Electrodes for Energy Storage - Narita - 2021 - Advanced Energy Materials - Wiley Online Library
Electrochemical performance of the battery (Zn|electrolyte| δ-MnO 2... | Download Scientific Diagram
Parallel-Stacked Flexible Organic Light-Emitting Diodes for Wearable Photodynamic Therapeutics and Color-Tunable Optoelectronics | ACS Nano
Calixarene Intercalated NiCo Layered Double Hydroxide for Enhanced Oxygen Evolution Catalysis | ACS Sustainable Chemistry & Engineering
Three-dimensional printed carbon-based microbatteries: progress on technologies, materials and applications
Thermal Transient Measurements on Various Electronic Components | SpringerLink
Carlos Arturo Fernandez's research works | Georgia Institute of Technology, Georgia (GT) and other places
Electrode reconstruction strategy for oxygen evolution reaction: maintaining Fe-CoOOH phase with intermediate-spin state during electrolysis | Nature Communications
Structure Evolution from Layered to Spinel during Synthetic Control and Cycling Process of Fe-Containing Li-Rich Cathode Materials for Lithium-Ion Batteries | ACS Omega
Suppression of stacking-fault expansion in 4H-SiC PiN diodes using proton implantation to solve bipolar degradation | Scientific Reports
De-Ammonium Ba0.18V2O4.95/NH4V4O10 Film Electrodes as High-Performance Cathode Materials for Magnesium-Ion Batteries | Langmuir
Temporal evolution of the neutron imaging experiment Cell voltage and... | Download Scientific Diagram
Progress and Perspectives of Pulse Electrolysis for Stable Electrochemical Carbon Dioxide Reduction | Energy & Fuels
![Effect of current intensity on discoloration rate [MO] = 20 mg/L, 50 mM... | Download Scientific Diagram](https://www.researchgate.net/publication/361590384/figure/fig3/AS:1171974072086531@1656431801958/Effect-of-current-intensity-on-discoloration-rate-MO-20-mg-L-50-mM-Na-2-SO-4-I-C.png "Effect of current intensity on discoloration rate [MO] = 20 mg/L, 50 mM... | Download Scientific Diagram")
Effect of current intensity on discoloration rate [MO] = 20 mg/L, 50 mM... | Download Scientific Diagram
![Comparative Study of Ni-Rich Layered Cathodes for Rechargeable Lithium Batteries: Li[Ni0.85Co0.11Al0.04]O2 and Li[Ni0.84Co0.06Mn0.09Al0.01]O2 with Two-Step Full Concentration Gradients | ACS Energy Letters](https://pubs.acs.org/cms/10.1021/acsenergylett.6b00150/asset/images/medium/nz-2016-00150j_0003.gif "Comparative Study of Ni-Rich Layered Cathodes for Rechargeable Lithium Batteries: Li[Ni0.85Co0.11Al0.04]O2 and Li[Ni0.84Co0.06Mn0.09Al0.01]O2 with Two-Step Full Concentration Gradients | ACS Energy Letters")
Comparative Study of Ni-Rich Layered Cathodes for Rechargeable Lithium Batteries: Li[Ni0.85Co0.11Al0.04]O2 and Li[Ni0.84Co0.06Mn0.09Al0.01]O2 with Two-Step Full Concentration Gradients | ACS Energy Letters
Enhanced electrochemical production and facile modification of graphite oxide for cost-effective sodium ion battery anodes - ScienceDirect
Characteristics of an Al ion battery in AlCl 3 /urea = 1.3 electrolyte.... | Download Scientific Diagram
Graphene-Based Materials for Flexible Lithium–Sulfur Batteries | ACS Nano
Robust Cobalt Manganese Sulfide Thin Film as an Electrocatalytic Layer for Quantum Dot-Sensitized Solar Cells with the Polysulfide Electrolyte | ACS Sustainable Chemistry & Engineering
Applied Sciences | October-1 2023 - Browse Articles
An Organic Cathode for Potassium Dual-Ion Full Battery | ACS Energy Letters
V395 | VARTA Button Cell Battery, Silver Oxide, SR57, 1.55V, 42mAh | Distrelec Danmark
Tunnel‐Type Sodium Manganese Oxide Cathodes for Sodium‐Ion Batteries - Chae - 2021 - ChemElectroChem - Wiley Online Library
A rechargeable iodine-carbon battery that exploits ion intercalation and iodine redox chemistry | Nature Communications
Bio-Based Adenine-Derived Polyimide as a Dual-Functional Binder for the Silicon Anode in Lithium-Ion Batteries | ACS Applied Energy Materials
