Due to their high energy density, lithium-ion batteries have been the state-of-the-art energy
storage technology for many applications. Energy density can be further improved by …

Sintered electrode lithium-ion batteries contain only electroactive material which has
undergone a mild thermal treatment to improve particle connectivity and thus electrode …

Lithium-ion batteries have become prevalent for portable energy storage. Towards
continuing to increase the energy density of batteries, engineering the electrode structure …

Abstract Lithium-ion (Li-ion) batteries are the dominant energy storage technology in many
applications due to high energy and power density, and research efforts continue towards …

Lithium-ion batteries are used in many applications due to their high volumetric and
gravimetric energy density. One general route to increase cell level battery energy density is …

Lithium (Li)-ion batteries are a leading rechargeable energy storage technology due to their
high volumetric and gravimetric energy density. Increasing the electrode thickness is one …

Higher energy density batteries continue to be pursued by researchers. One general route to
increase energy density is to increase electrode thickness, which reduces the relative …

Lithium-ion batteries are ubiquitous in our modern society, and research continues to further
improve their energy and power density. Thicker electrodes lead to energy density …

The performance and life of Li-ion battery cathode materials are determined by both the
composition (crystal structure and transition metal ratio) and the morphology (particle size …

Owing to compositional advantages of the high theoretical capacity and 3D porous
nanoarchitecture, the strategies for coupling of metal sulfide and metal-organic frameworks …