Carbonyl chemistry for advanced electrochemical energy storage systems
On the basis of the sustainable concept, organic compounds and carbon materials both
mainly composed of light C element have been regarded as powerful candidates for …
mainly composed of light C element have been regarded as powerful candidates for …
Boosting rechargeable batteries R&D by multiscale modeling: myth or reality?
This review addresses concepts, approaches, tools, and outcomes of multiscale modeling
used to design and optimize the current and next generation rechargeable battery cells …
used to design and optimize the current and next generation rechargeable battery cells …
A pyrazine‐based polymer for fast‐charge batteries
The lack of high‐power and stable cathodes prohibits the development of rechargeable
metal (Na, Mg, Al) batteries. Herein, poly (hexaazatrinaphthalene)(PHATN), an …
metal (Na, Mg, Al) batteries. Herein, poly (hexaazatrinaphthalene)(PHATN), an …
Highly reversible electrochemical reaction of insoluble 3D nanoporous polyquinoneimines with stable cycle and rate performance
H Peng, S Wang, M Kim, J Kim, Y Yamauchi, J Yu… - Energy Storage …, 2020 - Elsevier
Carbonyl compounds have potential for use as cathode materials of secondary batteries
because of their large specific capacities, stable redox active centers, high efficiencies and …
because of their large specific capacities, stable redox active centers, high efficiencies and …
Decreasing redox voltage of terephthalate-based electrode material for Li-ion battery using substituent effect
AE Lakraychi, F Dolhem, F Djedaïni-Pilard… - Journal of Power …, 2017 - Elsevier
The preparation and assessment versus lithium of a functionalized terephthalate-based as a
potential new negative electrode material for Li-ion battery is presented. Inspired from …
potential new negative electrode material for Li-ion battery is presented. Inspired from …
Carbonyl-Based Redox-Active Compounds as Organic Electrodes for Batteries: Escape from Middle–High Redox Potentials and Further Improvement?
Extracting─ from the vast space of organic compounds─ the best electrode candidates for
achieving energy material breakthrough requires the identification of the microscopic causes …
achieving energy material breakthrough requires the identification of the microscopic causes …
Simplifying and accelerating kinetics enabling fast-charge Al batteries
Nowadays, cost-efficient and high-power energy storage technologies are urgently required
for extensive integration of intermittent wind and solar renewable energy. Complying with …
for extensive integration of intermittent wind and solar renewable energy. Complying with …
Tailored design of electrochemically degradable anthraquinone functionality toward organic cathodes
In efforts to design organic cathode materials for rechargeable batteries, a fundamental
understanding of the redox properties of diverse non-carbon-based functionalities …
understanding of the redox properties of diverse non-carbon-based functionalities …
Investigating the potential of pyrazine dioxide based-compounds as organic electrodes for batteries
Understanding structure–property relationship in redox-active molecular species is of central
importance in various fields, including many medicinal and chemical applications. The quest …
importance in various fields, including many medicinal and chemical applications. The quest …
Computational insight into the structural properties and redox chemistry of poly (ethylene carbonate) as electrolytes for Lithium batteries
X Jiao, X Pan - Journal of Electroanalytical Chemistry, 2021 - Elsevier
New electrolytes with high electrochemical stability and ionic conductivity are important in
the development of lithium ion batteries. Polyethylene carbonate (PEC) is a very promising …
the development of lithium ion batteries. Polyethylene carbonate (PEC) is a very promising …