Master's Dissertation
DOI
https://doi.org/10.11606/D.3.2016.tde-29062016-150133
Document
Author
Full name
Daniel José da Silva
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2016
Supervisor
Committee
Hui, Wang Shu (President)
Santos, Emerson Roberto
Silva, Mauro Francisco Pinheiro da
Santos, Emerson Roberto
Silva, Mauro Francisco Pinheiro da
Title in Portuguese
Estudo de copolímeros a base de fluoreno e benzotidiazol em diodos emissores de luz e células fotovoltaicas poliméricas.
Keywords in Portuguese
Células solares
Diodo emissor de luz
Polímeros (Materiais)
Reação de acoplamento de Suzuki
Sistemas fotovoltaicos
Diodo emissor de luz
Polímeros (Materiais)
Reação de acoplamento de Suzuki
Sistemas fotovoltaicos
Abstract in Portuguese
As células solares poliméricas (PSCs) e diodos emissores de luz poliméricos (PLEDs) destacam-se dos seus análogos inorgânicos pela possibilidade de reduzir custo de fabricação, obtenção de dispositivos mais leves e flexíveis, maior liberdade no design e menor tempo de produção de dispositivos, devido à sua maior facilidade de processamento. Neste trabalho foram investigadas as mudanças nas propriedades fotofísicas, eletroquímicas e elétricas do poli[2,7-(9,9-dioctilfluoreno)-alt-4,7-bis(2,5-tiofeno)-2,1,3-benzotiadiazol] (PDBT) e seus derivados contendo grupos substituintes hexila no anel tiofeno. Este polímero conjugado é conhecido por seu potencial para aplicações em PSCs. Para tanto, três copolímeros, contendo diferentes concentrações de mero tiofeno substituído, foram sintetizados via reação de acoplamento de Suzuki. Usando técnicas adequadas, foram verificadas correlações entre o comportamento fotofísico, térmico e elétrico dos copolímeros e o teor de tiofeno substituído. Os materiais poliméricos sintetizados foram aplicados como camada ativa em PLEDs e PSCs. Em relação aos PLEDs, foi verificada baixa luminância e emissão de luz na faixa da cor laranja e cor verde. Além disso, diferentes efeitos, relacionados com a concentração de tiofeno substituído e as propriedades fotovoltaicas, foram identificados nas PSCs montadas.
Title in English
Study of polymers based on fluorense and benzothiadiazole over polymeric light-emiting diodes and photovoltaic cells.
Keywords in English
Conjugated polymer
LED
Solar cell
Suzuki polycondensation
LED
Solar cell
Suzuki polycondensation
Abstract in English
Polymer Solar cells (PSCs) and polymer light-emitting diodes (PLEDs) draw attention from their inorganic analogues for the possibility of manufacturing cost reduction, more light and flexible devices, as well as the greater design freedom and shorter production time devices due to its easier processing. In this work, we investigated the changes in the photophysical, electrochemical and electrical properties from poly[2,7-(9,9-dioctylfluorene)-alt-4,7-bis(2,5-thiophene)-2,1,3-benzothiadiazole] (PDBT) that was caused by hexyl substituents introduction on the copolymer thiophene rings. This conjugated polymer system is known for its PSCs applications potential. Therefore, three copolymers, with different concentrations of substituted thiophene mere, were synthesized by Suzuki polycondensation. Using appropriate techniques, direct relationships were verified between the photophysical, thermal and electrical behavior from copolymers and substituted thiophene content. The synthesized polymeric materials were applied as active layer in PLEDs and PSCs. Regarding PLEDs, it was verified a low luminance and light emission in the range of orange and green colors. Furthermore, different effects, related to the substituted thiophene concentration and photovoltaic properties, were identified from mounted PSCs.
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Publishing Date
2016-10-25
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