Perforated two-dimensional nanoarchitectures for next-generation batteries: Recent advances and extensible perspectives
In the past decade, nanoperforated graphene (also known as a graphene nanomesh or
holey graphene) has attracted considerable research interest worldwide, predominantly …
holey graphene) has attracted considerable research interest worldwide, predominantly …
Ultrafast green microwave-assisted synthesis of high-entropy oxide nanoparticles for Li-ion battery applications
In this study, a novel ultrafast facile green microwave-assisted method was developed for
the synthesis of high-entropy oxide (HEO)(Mg, Cu, Ni, Co, Zn) O nanoparticles for the first …
the synthesis of high-entropy oxide (HEO)(Mg, Cu, Ni, Co, Zn) O nanoparticles for the first …
Recent progress on graphene-based nanocomposites for electrochemical sodium-ion storage
M Li, K Zhu, H Zhao, Z Meng - Nanomaterials, 2022 - mdpi.com
In advancing battery technologies, primary attention is paid to develo** and optimizing
low-cost electrode materials capable of fast reversible ion insertion and extraction with good …
low-cost electrode materials capable of fast reversible ion insertion and extraction with good …
Understanding Na-ion adsorption in nitrogen doped graphene oxide anode for rechargeable sodium ion batteries
Na-ion batteries (NIBs) are promising alternative to Li-ion batteries due to the abundance
resources of Na and low fabrication cost. After the successful synthesis of graphene, its …
resources of Na and low fabrication cost. After the successful synthesis of graphene, its …
Realization of Sn2P2S6-carbon nanotube anode with high K+/Na+ storage performance via rational interface manipulation–induced shuttle-effect inhibition and self …
Because the electrochemical performance of next-generation batteries is strongly affected
by the electronic properties of their electrode materials, it is highly desirable to find ways to …
by the electronic properties of their electrode materials, it is highly desirable to find ways to …
Electrolyte modulation of BiPS4 concurrently suppressing the Bi coarsening and polysulfide shuttle effect in K-ion batteries
Emerging electrode materials for next generation batteries are consciously designed to
contain multi-component active materials that can function synergistically to perform several …
contain multi-component active materials that can function synergistically to perform several …
Fe3+-Derived Boosted Charge Transfer in an FeSi4P4 Anode for Ultradurable Li-Ion Batteries
Ion and electron transportation determine the electrochemical performance of anodes in
metal-ion batteries. This study demonstrates the advantage of charge transfer over mass …
metal-ion batteries. This study demonstrates the advantage of charge transfer over mass …
Si, P vacancy-enriched CoSi3P3 anode with exceptional Li storage performance
To address the challenges associated with the severe volume changes and unstable cycling
performance of conversion-and alloying-type P-and Si-rich anodes in Li-ion batteries, a Si, P …
performance of conversion-and alloying-type P-and Si-rich anodes in Li-ion batteries, a Si, P …
Microwave Shock Synthesis of Porous 2D Non‐Layered Transition Metal Carbides for Efficient Hydrogen Evolution
M Fan, H Tian, Z Wu, J Dai, X Ma, Y You, J Huang… - …, 2024 - Wiley Online Library
Transition metal carbides (TMCs) serve as efficient catalysts for electrocatalytic hydrogen
evolution reactions (HERs), holding significant importance in promoting hydrogen …
evolution reactions (HERs), holding significant importance in promoting hydrogen …
Efficient stress alleviation and interface regulation in Cu4SiP8-CNT hybrid for ultra-durable Li and Na storage
In the search for new anode materials having a high theoretical capacity, satisfactory redox
potentials, and inexpensive, abundant components for use in high-performance metal-ion …
potentials, and inexpensive, abundant components for use in high-performance metal-ion …