Electrolyte additives for lithium metal anodes and rechargeable lithium metal batteries: progress and perspectives
Lithium metal (Li0) rechargeable batteries (LMBs), such as systems with a Li0 anode and
intercalation and/or conversion type cathode, lithium‐sulfur (Li‐S), and lithium‐oxygen …
intercalation and/or conversion type cathode, lithium‐sulfur (Li‐S), and lithium‐oxygen …
Li‐and Mn‐rich cathode materials: challenges to commercialization
The lithium‐and manganese‐rich (LMR) layered structure cathodes exhibit one of the
highest specific energies (≈ 900 W h kg− 1) among all the cathode materials. However, the …
highest specific energies (≈ 900 W h kg− 1) among all the cathode materials. However, the …
A review of cathode materials and structures for rechargeable lithium–air batteries
Rechargeable lithium air (Li–air) batteries, especially the non-aqueous type, are considered
the most promising energy storage and conversion device candidates for use in future …
the most promising energy storage and conversion device candidates for use in future …
Advances and challenges in lithium-air batteries
Rechargeable lithium-air batteries have ultra-high theoretical capacities and energy
densities, allowing them to be considered as one of the most promising power sources for …
densities, allowing them to be considered as one of the most promising power sources for …
A critical review on lithium–air battery electrolytes
Metal–air batteries, utilizing the reduction of ambient oxygen, have the highest energy
density because most of the cell volume is occupied by the anode while the cathode active …
density because most of the cell volume is occupied by the anode while the cathode active …
A Mo2C/Carbon Nanotube Composite Cathode for Lithium–Oxygen Batteries with High Energy Efficiency and Long Cycle Life
Although lithium–oxygen batteries are attracting considerable attention because of the
potential for an extremely high energy density, their practical use has been restricted owing …
potential for an extremely high energy density, their practical use has been restricted owing …
Effect of additives on electrochemical performance of lithium nickel cobalt manganese oxide at high temperature
KS Kang, S Choi, JH Song, SG Woo, YN Jo… - Journal of Power …, 2014 - Elsevier
Lithium–nickel–cobalt–manganese oxide, Li [Ni x Co y Mn z] O 2 (NCM) is a low-cost
cathode material with a high capacity and a moderately high rate capability, however, it still …
cathode material with a high capacity and a moderately high rate capability, however, it still …
Interface modifications by anion receptors for high energy lithium ion batteries
Abstract Li-rich, Mn-rich (LMR) layered composite has attracted extensive interests because
of its highest energy density among all cathode candidates for lithium ion batteries (LIB) …
of its highest energy density among all cathode candidates for lithium ion batteries (LIB) …
Control of nanomorphology in fullerene-free organic solar cells by lewis acid doping with enhanced photovoltaic efficiency
Generating desired efficiency enhancements in organic solar cells (OSCs) by charge-
transfer doping requires to obtain modified optoelectronic properties while retaining the …
transfer doping requires to obtain modified optoelectronic properties while retaining the …
Boron-based anion receptors in lithium-ion and metal-air batteries
VP Reddy, M Blanco, R Bugga - Journal of Power Sources, 2014 - Elsevier
Boron-based anion receptors, widely used as biosensors, are currently being explored as
electrolyte-additives in lithium ion batteries and metal-air batteries, towards the goal of …
electrolyte-additives in lithium ion batteries and metal-air batteries, towards the goal of …