Smart system for the high-yield production of solar energy in multiple capture chambers provided with nanoparticle photovoltaic cells
作者: Alex Hr Roustaei , Abdelmadjid Djemai
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摘要: The invention relates to an innovative solution for producing solar energy based on nanoparticles. has efficient design and a low cost per generated watt, is the principle of multiple chambers multispectral capture provided with optical concentrators novel antireflective coating capable absorbing light spectrum, from ultraviolet rays infrared rays, independent angle incidence ray. photovoltaic cells can consist organic and/or inorganic thin-films deposited by grafting particles using ion or plasma beams printed piezoelectric inkjet laser printing. covers methods improving deposition surface efficient, high-yield direct logistics flow roll-to-roll system, as well real-time quality control during production (figure 1). Using nanometric preparation CIGS/CIS in form ink powder visible doped layers TiO 2 are formed trapping (UV) (IR) applied inkjet, continuous rotary printing any rigid flexible substrate. Other aspects include increase overall yield thanks flattening layers, either chemical processing receiving layers. device following sun thus generates electricity at high yield. respects cleanliness environmental restrictions designed clean without toxic elements. favourable ratio it compensate required thereof few days (fig. 10). be used, inter alia , household industrial fields. product general panels discretely deployable films providing generating electricity. Due structure lightweight properties invention, easily integrated into buildings bodywork cars vehicles travelling outside Earth's atmosphere. Moreover, variant used converting calories current WiFi, OE OS wave current, thereby ensuring wireless transfer. present application extension continuation subsequent patent internal priority claim N° 1000828 filed 1 March 2010; which turn further first N°0901503 27 2009; N°0900921 N°0900267 22 January N°08 06821 5 December 2008; N°0806820 N°0804598 14 August 03019 June said applications being attached entirety reference.
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