by Nicki Gorny
Toledo OH (SPX) Jan 30, 2026
A photo voltaic power technology know-how as soon as thought of restricted in its potential is poised for vital development in the US.
That is the conclusion of a group of scientists who analyzed the outlook for cadmium telluride photovoltaics in analysis printed within the peer-reviewed journal Joule.
College of Toledo physicists together with Dr. Michael Heben, a Distinguished College Professor and McMaster Chair and Director of the Wright Heart for Photovoltaics Innovation and Commercialization, collaborated with companions on the U.S. Division of Power’s Nationwide Laboratory of the Rockies, the Missouri College of Science and Expertise, Colorado State College, Sivananthan Labs and First Photo voltaic beneath the umbrella of Division of Power’s Cadmium Telluride Accelerator Consortium.
Their evaluation presents challenges and corresponding analysis targets that the group of scientists consider will carry this know-how to a producing capability of 100 gigawatts by 2030.
“There are quite a lot of benefits to cadmium telluride,” Heben stated. “They carry out higher in sizzling and humid climates than the silicon photovoltaics that at the moment dominate the trade, and since their manufacturing course of leverages home provide chains, they’re much less delicate to import restrictions whereas supporting nationwide power safety.”
Cadmium telluride photovoltaics are a class of thin-film photo voltaic cells which have lengthy proven promise as a dependable, low-cost and high-efficiency different to the crystalline silicon modules that at the moment dominate the worldwide photo voltaic power trade.
Cadmium telluride photo voltaic cells are the one different photovoltaics to be manufactured on the gigawatt scale, having fun with a selected area of interest in utility-scale deployment. However comparatively decrease energy conversion efficiencies and provide chain challenges have restricted their share of the whole solar energy technology portfolio in the US to roughly 16%.
UToledo is deeply engaged within the analysis and growth of cadmium telluride photo voltaic cells via its Wright Heart, the place physicists’ groundbreaking work on this and different thin-film photovoltaic applied sciences largely accounts for UToledo’s rank within the prime quarter of worldwide universities in supplies science by U.S. Information and World Report.
First Photo voltaic, the world’s largest producer of cadmium telluride photo voltaic panels with a serious presence in northwest Ohio, notably traces its roots to early work accomplished in campus labs within the Nineteen Eighties.
The Joule analysis makes a case for vital development potential in cadmium telluride photovoltaics, taking into consideration components like financial insurance policies favoring home manufacturing and technological developments bettering energy conversion effectivity.
“Cadmium telluride has far more room to develop in efficiency in comparison with silicon,” Heben stated. “The know-how may be very dependable and predictable, whereas the power conversion effectivity is continually transferring upward.”
Scientists additionally deal with technological and provide chain developments associated to the factor tellurium. They credit score the technological developments with enabling extra environment friendly extraction and utilization of this mining byproduct, and so they cite financial and trade information to exhibit that its availability isn’t proving to be the limiting development issue that producers as soon as predicted it will be.
All of it provides as much as a promising outlook for cadmium telluride photovoltaics.
“This analysis is actually a roadmap for additional rising and increasing this know-how,” Heben stated.
Analysis Report:Roadmap to 100 GWDC: Scientific and Supply Chain Challenges for CdTe Photovoltaics
Associated Hyperlinks
Wright Center for Photovoltaics Innovation and Commercialization
All About Solar Energy at SolarDaily.com
