Japanese researchers have developed a new complex hydride lithium superionic conductor that could result in all-solid-state batteries with the highest energy density to date.
Designers of portable Li-ion battery-powered electronics now have a simplified and flexible way to add a USB Type-C (USB-C) charging system to their products with the MAX77860 3 A switchmode charger from Maxim Integrated Products.
Researchers have developed a fuel cell with the capacity to power electric vehicles such as planes, ships and submarines which have much higher energy requirements than electric cars.
Scientists used a process called singlet fission to produce and extend the life of harvestable light-generated electrons.
The Technology Dynamics CP-RK-BBU Series DC-UPS power supply systems are designed to provide clean, uninterrupted power to critical DC loads in the event of AC (utility) power loss.
The US National Science Foundation has awarded a US$219,312, two-year grant to push forward research into cutting-edge lithium-oxygen batteries.
RECOM's REC15E-Z series of 15 W isolated DC/DC converters features wide input ranges in a 1″ x 1″ case size. This is intended to save PCB space, while the wide input ranges increase flexibility by accepting several standard bus voltages.
MORNSUN has added four series of DC converters, all with dual isolated regulated outputs, to the R3 DC/DC wide-input converter family.
Researchers have successfully manufactured various kinds of battery shapes — such as ring-type, H-shape and U-shape — using 3D printing technology.
A newly synthesised molecule assembles itself into a monolayer which can cover a variety of surfaces and can function as a hole-transporting material in a perovskite solar cell.
Renesas Electronics' ISL9241 USB-C buck-boost battery charger supports both Narrow Voltage Direct Charging (NVDC) and Hybrid Power Buck-Boost (HPBB) charging for notebooks, ultrabooks, tablets and power banks using the reversible USB Type-C connector cable.
Scientists demonstrated a strategy for designing active materials for rechargeable aluminium-ion batteries, bringing us closer to making the science behind the technology work.