Progress in electrolytes for beyond-lithium-ion batteries
The constant increase in global energy demand and stricter environmental standards are
calling for advanced energy storage technologies that can store electricity from intermittent …
calling for advanced energy storage technologies that can store electricity from intermittent …
Determining realistic electrochemical stability windows of electrolytes for electrical double‐layer capacitors
Electrical double‐layer capacitors are a key building block for energy storage applications,
including renewable energies, wherever high power is needed. Most research on …
including renewable energies, wherever high power is needed. Most research on …
Single‐step reagentless laser scribing fabrication of electrochemical paper‐based analytical devices
A single‐step laser scribing process is used to pattern nanostructured electrodes on paper‐
based devices. The facile and low‐cost technique eliminates the need for chemical reagents …
based devices. The facile and low‐cost technique eliminates the need for chemical reagents …
[HTML][HTML] Nanoporous polymer-derived activated carbon for hydrogen adsorption and electrochemical energy storage
The development and in-depth characterization of multifunctional materials with versatile
use in energy and environmental applications has been a topic of on-going investigations. In …
use in energy and environmental applications has been a topic of on-going investigations. In …
Can metallic sodium electrodes affect the electrochemistry of sodium‐ion batteries? Reactivity Issues and Perspectives
Sodium‐ion batteries (NIBs) are promising energy‐storage devices with advantages such as
low cost and highly abundant raw materials. To probe the electrochemical properties of …
low cost and highly abundant raw materials. To probe the electrochemical properties of …
Nanoconfinement of redox reactions enables rapid zinc iodide energy storage with high efficiency
A key challenge for present-day electric energy storage systems, such as supercapacitors
and batteries, is to meet the world's growing demand for high performances, low cost, and …
and batteries, is to meet the world's growing demand for high performances, low cost, and …
Investigation of enhanced water oxidation under plasmon–nanocavity strong coupling using in situ electrochemical surface-enhanced Raman spectroscopy
X Zang, X Shi, Y Suganami, YE Liu… - The Journal of …, 2023 - ACS Publications
Strong coupling between a localized surface plasmon resonance (LSPR) at the surface of
metal nanoparticles (NPs) and a Fabry–Pérot (FP) nanocavity can facilitate photochemical …
metal nanoparticles (NPs) and a Fabry–Pérot (FP) nanocavity can facilitate photochemical …
Controlling the flake size of bifunctional 2D WSe 2 nanosheets as flexible binders and supercapacitor materials
A new approach using graphene as a conductive binder in electrical supercapacitors has
recently been proposed. Graphene shows outstanding properties as a conductive binder …
recently been proposed. Graphene shows outstanding properties as a conductive binder …
Real-time in situ monitoring of nitrogen dynamics in wastewater treatment processes using wireless, solid-state, and ion-selective membrane sensors
Real-time, in situ accurate monitoring of nitrogen contaminants in wastewater over a long-
term period is critical for swift feedback control, enhanced nitrogen removal efficiency, and …
term period is critical for swift feedback control, enhanced nitrogen removal efficiency, and …
Tailoring the interfacial surfaces of ultrathin Cu-doped MoS2/activated carbon for high performance electrochemical energy storage
This research targeted to activate the additional active sites by incorporating the transition
metal Copper (Cu) into the MoS 2 matrix, and the effect of Cu over layered MoS 2 …
metal Copper (Cu) into the MoS 2 matrix, and the effect of Cu over layered MoS 2 …