Analysis of thin bifacial silicon solar cells with locally diffused and selective back surface field

Moehlecke, Adriano; Osório, Vanessa da Conceição; Zanesco, Izete

doi:10.1590/1516-1439.294614

Cited by 7 publications

(5 citation statements)

References 12 publications

(10 reference statements)

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“…26) In contrast, a bifacial n-type monocrystalline Si cell also includes a Ag finger electrode on the rear surface for collecting the current generated by reflected light. 27) If the contact resistance between the rear finger electrode and the Si cell can increase due to the production of acetic acid gas by the hydrolysis of EVA, the degradation of the bifacial cell can be more accelerated than that of the monofacial cell after the DH test. However, the test result was different from the above estimation.…”

Section: Resultsmentioning

confidence: 99%

Reliability and long term durability of bifacial photovoltaic modules using transparent backsheet

Arihara¹,

Koyoshi²,

Ishii³

et al. 2018

Jpn. J. Appl. Phys.

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The reliability and long-term durability of two bifacial photovoltaic modules, a glass-transparent backsheet (GB) module and a glass-glass (GG) module, were compared. The output degradations after UV, damp heat (DH) and thermal cycle tests for GB modules were similar to those for GG modules in the case of using ethylene vinyl acetate (EVA) encapsulant. In addition, GB modules using polyolefin encapsulant exhibited much higher reliability in a further extended DH test than GG modules using EVA encapsulant. It was also shown from an outdoor exposure test that the temperature of the GB module was clearly lower than that of the GG module, leading to a higher open-circuit voltage for the GB module. GB modules, even those using EVA encapsulant, had long-term durability similar to that of GG modules in addition to the advantages of a light weight, easy fabrication, and lower module temperature in a hot ambient.

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Section: Resultsmentioning

confidence: 99%

Reliability and long term durability of bifacial photovoltaic modules using transparent backsheet

Arihara¹,

Koyoshi²,

Ishii³

et al. 2018

Jpn. J. Appl. Phys.

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“…The source of acceptor dopant was boric acid H 3 BO 4 . Although references (Yadav et al , 2015; Singh et al , 2014; Moehlecke et al , 2014) have reported the process of BSF fabrication based on boric acid, all of them made use of the spin-on method (not the spray-on method). Preparation of solutions for spray-on application method with two different dopant concentration values was tested and their properties were examined: dopant solution 1 (DS1) containing 7.5 g of boric acid H 3 BO 4 ; and dopant solution 2 (DS2) containing 10 g of boric acid. …”

Section: Resultsmentioning

confidence: 99%

Borosilicate spray-on glass solutions for fabrication silicon solar cell back surface field

Filipowski

Drabczyk

Wróbel

et al. 2018

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Purpose The purpose of this paper is to develop a method of preparing spray-on dopant solutions that enable obtaining a p+ region forming a back-surface field (BSF) during the diffusion doping process. The spray-on method used allows to decrease the costs of dopant solution application, which is particularly significant for new low-cost production processes. Design/methodology/approach This paper presents steps of production of high concentration boron dopant solutions enabling diffusion doping of crystalline p-type silicon surfaces. To check the fabricated dopant solutions for stability and suitability for spray-on application, their viscosity and density were measured in week-long intervals. The dopant solutions described in this paper were used in a series of diffusion doping processes to confirm their suitability for BSF production. Findings A method of preparing dopant solutions with parameters enabling depositing them on silicon wafers by the spray-on method has been established. Due to hygroscopic properties of the researched dopant solutions, a maximum surrounding atmosphere humidity has been established. The solutions should not be applied by the spray-on method, if this humidity value is exceeded. The conducted derivatographic examination enabled establishing optimal drying conditions. Originality/value The paper presents a new composition of a dopant solution which contains high concentration of boron and may be applied by the spray-on method. Derivatographic examination results, as well as equations describing the relation between dopant solution density and viscosity and storage time are also original for this research. The established dependencies between the sheet resistance of the fabricated BSF and the diffusion doping time are other new elements described in the paper.

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“…A malha metálica frontal foi implementada por serigrafia utilizando a pasta de prata PV159, da DuPont. As pastas foram secadas em forno de esteira a 200 °C e queimadas no mesmo forno, a 840 °C para lâminas sem camada de SiO 2 e 850 °C para lâminas com SiO 2 [14]. No processo de queima, a pasta de prata perfura as camadas de SiO 2 e TiO 2 , contatando eletricamente a região n + e a pasta de alumínio perfura a camada de SiO 2 , formando a região de BSF e o contato posterior.…”

Section: Materiais E Métodosunclassified

“…Com estrutura n + p, superfície frontal e posterior passivada com SiN x e região de BSF de Al localizada somente no contato elétrico da face posterior, foram obtidas as eficiências de 14,6%/13,6% (frontal/posterior) em dispositivos de área reduzida (4 cm 2 ) e com lâminas de silício Cz de 140 μm de espessura [13]. Regiões de BSF seletivo também foram propostas para células solares bifaciais fabricadas em lâminas finas [14,15]. No BSF seletivo, o boro é difundido em toda a face posterior e o Al somente no contato metálico em forma de malha, conforme esquematizado na Fig.…”

Section: Introductionunclassified

“…As superfícies não foram recobertas com filmes passivadores. Os mesmos autores [14] também demonstraram que as regiões localizadas de Al na face posterior somente podem ser usadas se um filme passivador de superfícies e, ao mesmo tempo, barreira para difusão de contaminantes for depositado sobre as lâminas antes do processo de metalização. Lâminas finas de silício tipo n, dopadas com fósforo, também podem ser usadas na fabricação de células bifaciais, obtendo-se a estrutura n + np + ou p + nn + .…”

Section: Introductionunclassified

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Células solares bifaciais industriais em lâminas de silício finas: análise de passivação de superfícies e tipo de silício

2018

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Resumo O objetivo deste trabalho foi analisar a passivação de superfícies com SiO2 em células solares bifaciais fabricadas em lâminas finas bem como avaliar a influência do tipo de silício monocristalino utilizado para fabricar as células solares. A estrutura implementada foi a n+pp+, com fósforo na face frontal e boro e alumínio na face posterior, formando uma região seletiva de campo retrodifusor. Foram usadas lâminas de silício Cz (Czochralski) e FZ (float zone) com 145 μm de espessura e implementou-se uma etapa térmica para crescer uma camada de SiO2 para passivar as superfícies. O óxido passivou as superfícies, proporcionando um aumento de 0,5% absolutos na eficiência das células solares fabricadas em silício FZ. As células solares produzidas em Si-Cz não obtiveram o mesmo aumento porque apresentaram uma elevada resistência em série. A célula solar fina mais eficiente foi fabricada com silício FZ e com superfícies passivadas, atingindo eficiência de 14,5% e de 11,1%, para iluminação pela face n+ e p+, respectivamente. As células em Si-Cz, mesmo com menor tempo de vida inicial dos portadores de carga minoritários, atingiram eficiências um pouco menores que estes valores.

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Analysis of thin bifacial silicon solar cells with locally diffused and selective back surface field

Cited by 7 publications

References 12 publications

Reliability and long term durability of bifacial photovoltaic modules using transparent backsheet

Reliability and long term durability of bifacial photovoltaic modules using transparent backsheet

Borosilicate spray-on glass solutions for fabrication silicon solar cell back surface field

Células solares bifaciais industriais em lâminas de silício finas: análise de passivação de superfícies e tipo de silício

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