by Paul Raybould | Sep 21, 2022 | Blog_post
The engineering of the commercial prototype SunCell® having a light-bulb design that required new systems and a novel high-temperature-capable sealing technology was successfully tested using glass photovoltaic (PV) window cavities. In addition, the hydrino plasma...
by Paul Raybould | Sep 14, 2022 | Blog_post
Using Raman spectroscopy with a high energy laser, a series of 1000 cm-1 (0.1234 eV) equal-energy spaced Raman peaks were observed in the 8000 cm-1 to 18,000 cm-1 region wherein conversion of the Raman spectrum into the fluorescence or photoluminescence spectrum...
by Paul Raybould | Mar 30, 2022 | Blog_post
The visible-light concentrator thermophotovoltaic SunCell® (cTPV-SunCell®) shown in this photo comprises a plasma cell that injects hydrogen and catalyst, and two electromagnetic pumps serve as electrodes by injecting intersecting molten tin streams from corresponding...
by Paul Raybould | Mar 19, 2022 | Blog_post
The visible-light concentrator thermophotovoltaic SunCell® (cTPV-SunCell®) shown in this photo comprises a plasma cell that injects hydrogen and catalyst, and two electromagnetic pumps serve as electrodes by injecting intersecting molten tin streams from corresponding...
by Paul Raybould | Mar 4, 2022 | Blog_post
The visible-light concentrator thermophotovoltaic SunCell® (cTPV-SunCell®) shown in this photo comprises a plasma cell that injects hydrogen and catalyst, and two electromagnetic pumps serve as electrodes by injecting intersecting molten tin streams from corresponding...
by Paul Raybould | Mar 2, 2022 | Blog_post
The visible-light concentrator thermophotovoltaic SunCell® (cTPV-SunCell®) shown in this photo comprises a plasma cell that injects hydrogen and catalyst, and two electromagnetic pumps serve as electrodes by injecting intersecting molten tin streams from corresponding...
