Potassium‐ion battery anode materials operating through the alloying–dealloying reaction mechanism
Anode materials that operate via the alloying–dealloying reaction mechanism are well
known in established and maturing battery systems such as lithium‐ion and sodium‐ion …
known in established and maturing battery systems such as lithium‐ion and sodium‐ion …
Real-time monitoring of stress development during electrochemical cycling of electrode materials for Li-ion batteries: overview and perspectives
MK Jangid, A Mukhopadhyay - Journal of Materials Chemistry A, 2019 - pubs.rsc.org
One of the major issues associated with Li-ion batteries is the stress development in
electrode materials. Such stresses arise primarily from dimensional changes …
electrode materials. Such stresses arise primarily from dimensional changes …
Stanene‐based nanosheets for β‐elemene delivery and ultrasound‐mediated combination cancer therapy
Ultrasound (US)‐mediated sonodynamic therapy (SDT) has emerged as a superior modality
for cancer treatment owing to the non‐invasiveness and high tissue‐penetrating depth …
for cancer treatment owing to the non‐invasiveness and high tissue‐penetrating depth …
Atomic welded dual-wall hollow nanospheres for three-in-one hybrid storage mechanism of alkali metal ion batteries
The rational design of hierarchical hollow nanomaterials is of critical significance in energy
storage materials. Herein, dual-wall hollow nanospheres (DWHNS) Sn/MoS2@ C are …
storage materials. Herein, dual-wall hollow nanospheres (DWHNS) Sn/MoS2@ C are …
Modifying SiO as a ternary composite anode material ((SiOx/G/SnO2)@ C) for Lithium battery with high Li-ion diffusion and lower volume expansion
T Yuan, R Tang, F Xiao, S Zuo, Y Wang, J Liu - Electrochimica Acta, 2023 - Elsevier
The silicon suboxide (SiO) anode material is considered to be a promising anode material of
Lithium-ion batteries (LIBs), because of its high theoretical capacity. However, there are …
Lithium-ion batteries (LIBs), because of its high theoretical capacity. However, there are …
Subzero temperature promotes stable lithium storage in SnO2
It is known that low operating temperature reduces significantly the discharging capacity and
cycling stability of lithium ion battery (LIB). In addition LIBs are unable to charge at subzero …
cycling stability of lithium ion battery (LIB). In addition LIBs are unable to charge at subzero …
LiF‐Induced Stable Solid Electrolyte Interphase for a Wide Temperature SnO2‐Based Anode Extensible to −50 °C
Lithium‐ion batteries (LIBs) suffer dramatic energy reduction, and are even unable to safely
charge below‐10° C, due to sluggish Li+ transport kinetics in the anode, electrolyte and …
charge below‐10° C, due to sluggish Li+ transport kinetics in the anode, electrolyte and …
SnO2 Model Electrode Cycled in Li-Ion Battery Reveals the Formation of Li2SnO3 and Li8SnO6 Phases through Conversion Reactions
G Ferraresi, C Villevieille, I Czekaj… - … applied materials & …, 2018 - ACS Publications
SnO2 is an attractive negative electrode for Li-ion battery owing to its high specific charge
compared to commercial graphite. However, the various intermediate conversion and alloy …
compared to commercial graphite. However, the various intermediate conversion and alloy …
Alkali-Ion Intercalation Chemistry and Phase Evolution of Sn4P3
Despite its high theoretical capacities, Sn4P3 anodes in alkali-ion batteries (AIBs) have
been plagued by electrode damage and capacity decay during cycling, mainly rooted in the …
been plagued by electrode damage and capacity decay during cycling, mainly rooted in the …
Unconventional capacity increase kinetics of a chemically engineered SnO 2 aerogel anode for long-term stable lithium-ion batteries
Conversion-type materials are attractive candidates as anodes for next-generation batteries
due to their high theoretical capacity. However, their irreversible conversion and excessive …
due to their high theoretical capacity. However, their irreversible conversion and excessive …