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...
by Paul Raybould | Feb 26, 2022 | Blog_post
We were accepted to present live demonstrations (stream limited by venue infrastructure) at the 2022 Battelle Climate Conference and the 2022 MIT Energy Conference. MIT cancelled Brilliant’s demonstration because they “received concerns from individuals in the energy...
by Paul Raybould | Feb 17, 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 | Feb 13, 2022 | Blog_post
We have made several significant engineering breakthroughs on the SunCell that have reduced our time and capital required to achieving commercial scale electric power sources. Our business presentations, executive summary, and videos have been correspondingly updated...
by Paul Raybould | Feb 7, 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 | Feb 5, 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...
