![]() The methods include laser trimming defects and multiple single layer self aligned maskless lithography on a glass substrate that forms the top surface of the solar cell. From designing your system to completing permits to installing your panels with precision, Trinity is here for you every step of the. It covers the structure of the complete solar cell, including a plastic cover and micro-inverter, but primarily covers methods of low cost mass manufacturing of full panels. The Solar array Fabrication family has 2 patents an application and a PCT. The patents and PCT are:ĩ,960,480 Solar antenna array and its fabrication ĩ,917,225 Black body infrared antenna array ĩ,917,217 Solar antenna array and its fabrication and uses Īnd PCT/US16/29336 now WO 2016/178858 was granted in the EU as EP16789760.2, and are validated in Sweden as SE3289612 T3 and Germany as DE 60 2016 030 694.8.Ĭhinese patent number is ZL201680025443.3 with a follow-on application number 2015800712314 and TW Patent Appln. It primarily covers the structure of the rectenna array from the original V groove structure to the current interdigitized finger structure, all of which have some combination of CNT antennas and diodes formed from the tip of the CNT in contact with the metal line output. The Solar antenna array family has 3 patents, and a PCT from which we filed the Chinese and EU patents. The pending application 16/545,551 has been filed and is in the examination process. It covers the structures of both the display and a portable phone with no buttons. ![]() The Semi-reflective display family has four patents and a pending application. Nine are US patents and one each Chinese, German and Swedish. NovaSolix has 12 granted patents, and 4 pending applications, two in the US one in China and one in Taiwan. While none of these efforts are particularly close to NovaSolix’s approach, they confirm the theoretical ability to get to over 80% conversion efficiency with full wave rectification compared to the Shockley-Queisser limit of 33.7% efficiency for traditional single silicon junction solar cells. ![]() Hall, from the University of Liverpool, described constructing a patch antenna array interconnected with rather large MiiC diodes. A third one, “Towards Rectennas for Solar Energy Harvesting”, by Naser Sedghi*, J. Researchers from California Institute of Technology also described an asymmetric MoC diode in “Ultrafast metal-insulator-multi-wall carbon nanotube tunneling diode employing asymmetrical structure effect” by Jeong Hee Shin a, Jaehan Im a, Ji-Woong Choi a, Hyun Sik Kim b, Jung Inn Sohn c,Seung Nam Cha c, and Jae Eun Jang a, published in Carbon 102 (2016) 172e180. While fullerenes, graphene and single-walled carbon nanotubes have all been incorporated into solar cells previously, they have not been used together in an. Cola1,3*, published in Nature Nanotechnology Letters 9/28/15. Georgia Tech described a forest of carbon nanotube bundles connected to MoC diodes in “A carbon nanotube optical rectenna”, by Asha Sharma1,2†, Virendra Singh1†, Thomas L. There have been a few universities that have done work similar to NovaSolix’s technology. ![]()
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