Conductive paste for solar cell and preparation method thereof

A technology of solar cells and conductive paste, applied in the field of solar cells, which can solve the problems of unsatisfactory photoelectric conversion efficiency of cells, difficulty in agglomeration and settlement, poor construction performance, etc., achieve good appearance, suppress the reduction of aluminum film and electrode adhesion , good construction performance

Active Publication Date: 2012-05-30
BYD CO LTD
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AI Technical Summary

Problems solved by technology

[0005] The present invention solves the phenomenon of leakage in the existing conductive paste, poor construction performance, unstable paste, and easy agglomeration and settlement. At the same time, the aluminum film in the back electric field of the solar cell has aluminum blisters, which overlap with the silicon substrate and the back silver electrode. Part of the problem exists powder drop phenomenon, and the photoelectric conversion efficiency of the cell is not ideal. To provide a kind of non-slipping phenomenon and the slurry is stable, not easy to agglomerate and settle, and the aluminum film of the back electric field of the solar cell prepared at the same time does not produce aluminum Blisters, perfect appearance, good scratch resistance on the part that overlaps with the silicon substrate and the back silver electrode, and a conductive paste for solar cells that improves the photoelectric conversion efficiency of the cell

Method used

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  • Conductive paste for solar cell and preparation method thereof
  • Conductive paste for solar cell and preparation method thereof

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preparation example Construction

[0023] The present invention simultaneously provides a kind of preparation method of conductive paste for solar cells, the steps comprising:

[0024] A, adopting the chemical reduction deposition method to prepare the core material is a glass powder, and the shell material is a nano-metal-glass composite powder of metal;

[0025] B. Add the nanometer metal-glass composite powder obtained in step A, inorganic binder and aluminum powder into the organic carrier and mix well. The method is simple and easy to implement, and can prepare nanometer metal-glass composite powder with uniform particles. At the same time, the prepared conductive paste is stable and easy to store, is not easy to slip through the net, is conducive to transportation, storage and use, and is easy to process.

[0026] The step of the chemical reduction deposition method of step A of the present invention can comprise:

[0027] S1, mixing the glass powder with the metal compound solution;

[0028] S2. After sl...

Embodiment 1

[0046] A. Preparation of nanometer metal-glass composite powder:

[0047] (1) Take 85 grams of AgNO 3 1 liter of solution prepared with deionized water, and 85 grams of complexing agent citric acid and 2.55 grams of dispersing agent polyvinylpyrrolidone (PVP) were added thereto to form an oxidation solution of silver element.

[0048] (2) Get lead-free nano-glass powder (produced by South Korean SEG company, median diameter D) composed of Bi-Zn-Si system 50 Mix 85 grams of 80nm) and 850 grams of deionized water in a reaction kettle, ultrasonically disperse for 10 minutes, heat in a water bath to 80°C while stirring rapidly, and add silver element oxidation solution to the reaction system to form a silver oxidation system containing glass powder.

[0049] (3) Add the hydrazine hydrate solution with a concentration of 50% by weight dropwise in the oxidation system of the reaction kettle, perform high-shear dispersion and ultrasonic emulsification for 2 hours, age to make the na...

Embodiment 2

[0058] The same method as in Example 1 was used to prepare nanometer metal-glass composite powder and conductive paste. The difference is that the reducing agent solution used in step A (3) is a glucose solution with a concentration of 50% by weight, and simultaneously contains 3.0 grams of polyvinylpyrrolidone (PVP) dispersant. Prepare solar cell back field aluminum conductive paste S2.

[0059] Adopt the method identical with embodiment 1 to measure the median diameter D of nanometer silver-glass composite powder 50 is 450.8nm, and the BET specific surface area is 184.4m 2 / g, the silver content is 26.8wt%.

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Abstract

The invention provides a conductive paste and a preparation method thereof. The conductive paste comprises aluminum powder, an inorganic binding agent, an organic carrier and metal-glass composite powder, wherein the metal-glass composite powder is of nano-particles and a core-shell structure, glass is used as a core material, and metal is used as a shell material. The conductive paste disclosed by the invention is good in storage stability and less prone to sedimentation and agglomeration, and the conductive paste is less prone to leakage from a screen during screen printing; after sintering, an aluminum film is smooth in surface and grey white, and has no aluminum vesicles or aluminum beads; and furthermore, the part in contact and superimposition with a back silver electrode, of the aluminum film is wiped by a non-dust cloth, and wiping traces and powder dropping can be avoided. The series resistance of the produced solar cell is reduced obviously, a filling factor is increased obviously, and the average photoelectric conversion efficiency of a monocrystalline silicon cell piece can be above 18.20%. Simultaneously, the conductive paste disclosed by the invention is good in construction performance, a film layer formed after sintering is compact, the sintering thickness is uniform, the bending of a silicon chip is small, the sheet resistance is small and the open circuit voltage (Voc) of the formed cell is high.

Description

technical field [0001] The invention belongs to the field of solar cells, in particular to a conductive paste for solar cells and a preparation method thereof. Background technique [0002] As a kind of green energy, solar energy has attracted more and more attention due to its advantages of inexhaustibility, no pollution, and no limitation of geographical resources. The back of the existing solar cell is an n-type region that can be formed on the back of the silicon wafer, so that the n-type silicon can be reversed into p-type silicon. Generally, an aluminum foil that reflects photons is formed by printing aluminum conductive paste on the back of the solar cell. A back electric field that collects current from the back of the cell. Then print silver conductive paste on the back electric field and the front of the solar cell respectively to form electrode wires, dry and sinter to prepare solar cell electrodes. [0003] Conductive aluminum paste belongs to one of the electr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B1/22H01B13/00H01L31/0224
Inventor 谭伟华廖炜陈东锋周勇姜占锋
Owner BYD CO LTD
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