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Compositely laminated ferroelectric-organic hybrid solar cell, and preparation method thereof

A solar cell and composite lamination technology, which is applied in organic semiconductor devices, circuits, photovoltaic power generation, etc., can solve the problems of low carrier mobility, poor battery durability, high volume resistance, etc., to inhibit recombination and improve battery performance. Efficiency, Enhanced Stability Effects

Pending Publication Date: 2019-03-08
GUANGDONG UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, at present, the conversion efficiency of organic solar cells is still low and the service life is short, and there are problems such as low carrier mobility, disordered structure, high bulk resistance, and poor durability of the battery. the bottleneck

Method used

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  • Compositely laminated ferroelectric-organic hybrid solar cell, and preparation method thereof
  • Compositely laminated ferroelectric-organic hybrid solar cell, and preparation method thereof
  • Compositely laminated ferroelectric-organic hybrid solar cell, and preparation method thereof

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Embodiment

[0040] Such as Figures 1 to 4 It is an embodiment of a nano-inorganic ferroelectric-organic hybrid solar cell and its preparation method, including a bottom-up substrate glass 1, a first ferroelectric layer 2, a ferroelectric-organic composite layer 3, and a second ferroelectric Layer 4 and electrode 5, ferroelectric-organic composite layer 3 is a composite layer of ferroelectric layer and active layer, ferroelectric-organic composite layer 3 is formed by ferroelectric inorganic nano-material BTO and active layer organic polymer material P3HT:PCBM (P3HT:PCBM): composed of BTO sol layer.

[0041] Wherein, the substrate glass 1 is ITO conductive glass, the square resistance of the ITO conductive glass is 20Ω / □, the coverage area is 1.5cm×1.5cm, and the effective coverage area covered by the surface of the ITO conductive glass is 1.0cm×1.5cm; The operating temperature of the substrate glass 1 is 25-200°C.

[0042] In addition, the electrode 5 is a vapor-deposited Al electrode....

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Abstract

The invention relates to the field of solar cell manufacturing, in particular to a compositely laminated ferroelectric-organic hybrid solar cell, and a preparation method thereof. The solar cell comprises substrate glass, a first ferroelectric layer, a ferroelectric-organic composite layer, a second ferroelectric layer and electrodes which are arranged from bottom to top, wherein the ferroelectric-organic composite layer is a composite layer comprising a ferroelectric layer and an active layer, and comprises a (P3HT:PCBM):BTO sol layer formed by the ferroelectric inorganic nanomaterial bariumtitanate (BTO) and the organic polymer material P3HT:PCBM of the active layer. The solar cell and the preparation method thereof have the advantages that ferroelectric BTO nanoparticles are introduced, and a built-in electric field generated by spontaneous polarization of the particles is utilized to inhibit electron hole recombination and reduce the generation of dark currents, so that the cell efficiency can be improved; as electron hole separation is promoted through the BTO built-in electric field, the parallel resistance of the cell is increased, and a higher fill factor is finally achieved; and polymer / inorganic nano-BTO composite photovoltaic devices can be manufactured on the basis of preparation of inorganic nano-bismuth ferrite ferroelectric materials.

Description

technical field [0001] The invention relates to the field of solar cell manufacturing, in particular to a compound laminated ferroelectric-organic hybrid solar cell and a preparation method thereof. Background technique [0002] Photovoltaic power generation is an effective way to utilize solar energy and an important part of renewable energy utilization. It is also the fastest growing, most dynamic, and most attention-grabbing research field in recent years. At present, the proportion of photovoltaic power generation in the entire energy structure is still very small (less than 1%), and the main reason is that the cost is too high. According to statistics, 65% of the cost of traditional crystalline silicon battery components comes from silicon wafers, which consumes a lot of silicon resources, and the supply of raw materials is tight, so it is difficult to meet the needs of large-scale promotion and application in the future. Thin-film solar cells have developed rapidly in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L51/42H01L51/46H01L51/48
CPCH10K85/111H10K30/10H10K2102/00Y02E10/549
Inventor 邓晓千冯祖勇黄细平何苗周惠媛熊德平
Owner GUANGDONG UNIV OF TECH
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