CSIRO and Piotrek have partnered to develop the next generation of solid polymer electrolytes (SPEs) for lithium batteries.
Silicon's ability to harvest energy from heat can be greatly increased while remaining mass-producible.
The MAX17301 and MAX17311 one-cell, pack-side ICs offer configurable settings for battery safety and allow fine-tuning of voltage and current thresholds based on various temperature zones.
Selectronic has added the SMPC480 3.5 kW model to its SP PRO Series 2i range to cater to the growing demand for smaller scale battery storage systems.
The repurposed 2 kWh units could be used in developing countries or isolated communities, with enough energy to power a small shop, farm holding or multiple residential homes.
Pliable, textile-based solar cells could enable truck tarps to produce the electricity consumed by the driver when underway, or to power electronic systems used to locate trailers in shipping terminals.
Adding a third ingredient to the light-capturing layer of an emerging solar cell technology can significantly improve all aspects of its energy-harvesting performance, according to researchers.
KIT researchers have produced electrodes for lithium-ion batteries at what they claim to be record speed, while also improving the quality of the electrodes and reducing production costs.
Solar cells and light-sensing technologies could be made more efficient by taking advantage of an unusual property that results from deformations and defects in their structures.
Korean researchers have developed a new strategy for extending sodium-ion batteries' cyclability, using copper sulfide as the electrode material.
The 3 W series offers both 4:1 and 2:1 ultrawide input voltage ranges, in surface mount and DIP mounting, with 1500 VDC isolation voltage and efficiencies up to 83%.
The use of inductive charging, while highly convenient, risks depleting the life of mobile phones using typical lithium-ion batteries.
Researchers used X-ray computed tomography to visualise in real time how cracks form near the edges of interfaces between materials in solid-state batteries.