Multimodal microscopy methods reveal perovskite solar cell performance limits in the contacts. Read the paper by postdocs Giles Eperon and David Moerman online now at ACS Nano
News & Events
Dynamic force spectroscopy experiments probe origins of photoswitch control over DNA melting
Jie Zhang’s great paper is now online check it out for a beautiful set of DFS experiments on force-induced melting of photowitch-modified DNA
Record photoluminescence lifetimes and quantum yield in hybrid perovskite thin films
Writing in the new journal ACS Energy Letters, Ginger Lab Ph.D. students Dane deQuilettes, and Mark Ziffer, along with visiting student Susanne Koch, undergraduates Sven Burke, and A.J. Shropshire, and NMR facility manager Rajan Paranji describe using surfactants to passivate surface states in hybrid perovskite thin films, obtaining the longest photoluminescence lifetimes and highest photoluminescence quantum efficiencies to date in hybrid perovskite thin films.
Thanks to the ACS Energy Letters publication and editorial team for a fast turn-around on a paper in this fast-moving field!
First direct chemical imaging of halide motion in perovskites publication in Nature Communications
Dane’s work providing the first direct chemical imaging of halide motion in perovskites is published in Nature Communications and is receiving lots of press!
Photoswitch modified-DNA paper in ACS Sensors
Yunqi and Soumya’s paper on photoswitch modified-DNA graces the cover of ACS Sensors