Eletro-síntese de novos poli(p-fenileno-vinileno)s e estudo de sua aplicação potencial em dispositivos opto-eletrônicos e narizes eletrônicos / Electro-synthesis of new poly (p-phenylene-vinylene) to study its potential application in opto-electronic devices and electronic noses

Eduardo Kunio Chinone Yoshikawa

13 August 2004

A presente tese de doutorado deu início a uma nova linha de pesquisa no grupo de Síntese de Polímeros Condutores do IQ-USP, que consiste nos estudos relacionados a sensores de gases para equipamentos do tipo narizes eletrônicos, confeccionados com polímeros condutores. Para isso, foram sintetizados eletroquimicamente sete polímeros da família dos poli(p-fenileno vinileno)s, dos quais cinco inéditos, substituídos por grupos receptores e doadores de elétrons.Todos os polímeros, incluindo seus precursores, foram caracterizados espectroscopicamente (RMN de 1H, IV e UV-Vis). Estudos de análises térmicas (TG e DSC) e de cromatografia por exclusão de tamanho (SEC) foram realizados com os polímeros que possuíam grupos alifáticos de cadeias longas, tendo sido um desses polímeros usado na confecção de dispositivos metal/polímero/metal, cujas medidas de corrente vs. tensão permitiram determinar a mobilidade dos portadores de carga. Sensores de gases foram feitos com os polímeros sintetizados, mostrando boa seletividade quando testados com vapores de uma série de solventes orgânicos polares e apolares. / In this thesis we describe the electrosynthesis of seven difterent poly(p-phenilenevinylene)s, PPVs, bearing long and short, electron donating and withdrawing side groups. These polymers are aimed for our recent interest in gas sensors based on conducting polymers and their application in electronic noses. Five out of the seven polymers are novel materials, hence never described before. The polymers were characterized spectroscopically. Those with long side chain were also submitted to thermal analyses and size exclusion chromatography. Electrical measurements (I x V) in metal/polymer/metal sandwich devices led to the determination of the charge carrier mobility of one of the polymers. Gas sensors, having thin films of the synthesized polymers as active layers, have shown good selectivity towards several organic solvent vapors and water as well.

Eletro-síntese

Físico-química orgânica

Nariz eletrônico

Poli(p-fenileno-vinileno)

Polímeros condutores

PPV

Sensor de gases

Síntese orgânica

Conducting polymers

Electro-synthesis

Electronic nose

Gas sensor

Organic physical chemistry

Organic synthesis

Poly (p-phenylene-vinylene)

PPV

Electronic and optical properties of conducting polymers from quantum mechanical computations

Mirsakiyeva, Amina

January 2017

Conductive polymers are also known as "organic metals" due to their semiconducting properties. They are found in a wide range of applications in the field of organic electronics. However, the growing number of experimental works is not widely supported with theoretical calculations. Hence, the field of conductive polymers is experiencing lack of understanding of mechanisms occurring in the polymers. In this PhD thesis, the aim is to increase understanding of conductive polymers by performing theoretical calculations.        The polymers poly(3,4-ethylenedioxythiophene) (PEDOT) together with its selenium (PEDOS) and tellurium (PEDOTe) derivatives, poly(p-phenylene) (PPP) and naphthobischalcogenadiazoles (NXz) were studied. Several computational methods were applied for analysis of mentioned structures, including density functional theory (DFT), tight-binding modelling (TB), and Car-Parrinello molecular dynamics (CPMD) calculations. The combination of CPMD and DFT calculations was applied to investigate the PEDOT, PEDOS and PEDOTe. The polymers were studied using four different functionals in order to investigate the full picture of structural changes, electronic and optical properties. Temperature effects were studied using molecular dynamics simulations. Wide statistics for structural and molecular orbitals analysis were collected.         The TB method was employed for PPP. The formation and motion of the excitations, polarons and bipolarons, along the polymer backbone was investigated in presence of electric and magnetic fields. The influence of non-magnetic and magnetic impurities was determined.        The extended π-conjugated structures of NXz were computed using B3LYP and ωB97XD functionals in combination with the 6-31+G(d) basis set. Here, the structural changes caused by polaron formation were analyzed. The combined analysis of densities of states and absorption spectra was used for understanding of the charge transition. / <p>QC 20170928</p>

density functional theory

DFT

Car-Parrinello molecular dynamics

CPMD

tigh-binding

poly(3

4-ethylenedioxythiophene)

PEDOT

selenium

PEDOS

tellurium

PEDOTe

poly(p-phenylene)

poly(para-phenylene)

poly(1

4-phenylene)

naphthobischalcogenadiazoles

Condensed Matter Physics

Den kondenserade materiens fysik

Polymer Chemistry

Polymerkemi