Researchers from Northwestern University’s McCormick School of Engineering worked with a graphene structure, the particles of which resemble ‘crumpled paper balls’, and have created a scaffold onto which lithium atoms can be deposited.
A team from the U.S. National Renewable Energy Laboratory (NREL) has developed a novel microscopic technique, which enables them to observe degradation in perovskite materials at the nano-scale, and pinpoint key areas for attention in their efforts to improve the stability and durability of the material.
Two of Europe’s leading research institutes, Germany’s Centre for Solar Energy and Hydrogen Research Baden Württemberg (ZSW) and the Institut Photovoltaïque D’Île de France (IPVF) have announced plans to closely cooperate in researching concepts for flexible solar cells utilizing CIGS technology.
In another attempt at cracking the perovskite stability problem, scientists from China’s Liaocheng University and Hefei University of Technology have developed a new gas-solid process for the creation of perovskite thin films, which they say can lead to improved stability and response time.
A report published by TÜV Rheinland, which was commissioned by tracker manufacturer, Array Technologies, shows that centralized tracker systems such as those offered by Array Technologies offer an LCOE advantage over other, decentralized system architectures.
Scientists from the University of Groningen have discovered a tin-based perovskite material in which electrons retain high energy levels for much longer than previously. This discovery could allow for the creation of very high efficiency perovskite cells, by eliminating a large portion of energy loss through heat.
A group of researchers from Duke University in the U.S. has developed a new coating process for the creation of hybrid thin film materials. The researchers say their process allows for the creation of solar materials that have until now proven difficult or even impossible to make.
A team from the University of Massachusetts, Amherst (UMass) has developed a polymer based energy storage system, which releases energy on demand as heat. The scientists say their system utilizes a polymer chain ‘organized like a string of Christmas lights’ and can achieve more than double the storage density of previous polymer based systems.
A team from the Los Alamos National Laboratory has developed a double pane solar glass, using quantum dot PV technology. The researchers say the glass could be integrated into buildings as a semi-transparent window, or added to existing solar panels to boost efficiency.