| 摘要 |
#CMT# #/CMT# The method involves connecting a quantum battery (16) or a super-capacitor with stack of single layer or multi-layer photo-diodes via frequency-broad band line (12). The quantum battery or super-capacitors are electrically supplied by photo-diodes. The energy flows from the photo-diodes or photo voltaic elements to the quantum battery in form of cold current in a loss-free manner. Quantum storage cells (11) with chemical strong dipolar crystals i.e. titanium crystals, are selected as the quantum battery. The crystals are separated from each other and provided in form of nano-particles. #CMT# : #/CMT# An independent claim is also included for a device for implementing the method for increasing the efficiency of photo-voltaic elements or photo-diodes. #CMT#USE : #/CMT# Method for increasing efficiency of photo-voltaic elements i.e. solar cells, and photo-diodes (all claimed) e.g. LEDs, laser diodes and schottky diodes, which are utilized in a solar power plant. #CMT#ADVANTAGE : #/CMT# The method enables connecting of simple, single layered photo-diodes and increased complex multi-layered photo-diodes, thus increasing the efficiency of conversion of radiation energy into electrical energy around multiple times without loss of heat. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The drawing shows a schematic view of parallel-and series circuits of photo-elements that are attached at the battery via a transmission-line. 11 : Quantum storage cells 12 : Frequency-broad band line 14 : Solar-cells 15 : Load 16 : Quantum battery. |
