Síntese de materiais orgânicos conjugados com baixa Egap para aplicação em células solares, magnetorresistores e narizes eletrônicos / Synthesis of organic conjugated materials with low bandgap for application in solar cells, magnetoresistors and electronic noses

Cordeiro, Juliana Ribeiro

17 September 2014

Os objetivos do presente trabalho consistem na síntese de dois polímeros - poli(2,1,3-benzotiadiazol-4,7-ilenovinileno-alt-9,9-n-dioctil-2,7-fluorenilenovinileno) (PBTDV-alt-PDO27FV) e poli[4,7-(2,1,3-benzotiadiazolileno)-alt-(2,5-dioctilóxi-1,4- fenilenovinileno)] (PBTDV-alt-PDOPPV) - cinco oligômeros - 4,7-bis(2-(9,9-n-dioctil-9H-fluoren-2-il)vinil)2,1,3-benzotiadiazol (FBF); 2,7-bis(2-(2,1,3-benzotiadiazol-4-il)vinil)9,9-n-dioctil-9H-fluoreno (BFB); 4-(2-(9,9-n-dioctil-9H-fluoren-2-il)vinil)2,1,3-benzotiadiazol (FB); 1,2-bis(9,9-n-dioctil-9H-fluoren)2-vinileno (FF) e 2,2\'-(2,2\'-(9,9-n-dioctil-9H-fluoreno)2,7-bis(vinileno)bis(9,9-n-dioctil-9H-fluoreno) (FFF) - e três small molecules - 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(6-fluoro-4-(5\'-hexil-[2\'-tiofeno-2\'-tiazol]-5-il)benzo[c][1,2,5]tiadiazol (G37FBT); 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(6-fluoro-4-(2\'-isobutil-[5\',2\'-ditiazol])-5-il)benzo[c][1,2,5]tiadiazol (J1) e 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(5\'-hexil-[2,2\'-bitiofeno]-5- bis(il)benzo[c][1,2,5]tiadiazol) (J2) - seguida da aplicação desses materiais em dispositivos fotovoltaicos e magnetorresistivos e em sensores de gás. Os polímeros e oligômeros preparados são derivados de poli(p-fenilenovinileno) e contêm unidades de fluoreno e/ou 2,1,3-benzotiadiazol, tendo sido empregada, na etapa final de cada síntese, reação de Wittig visando ao acoplamento e à formação das duplas vinilênicas. As small molecules, preparadas por meio de sucessivas formações de organo-estananas e reações de Stille, também foram sintetizadas com sucesso e em rendimentos apreciáveis. A espécie J2 não foi preparada com sucesso, obtendo-se, em contrapartida, um análogo dessa molécula, que foi devidamente isolado e caracterizado. No que tange à aplicação dos materiais em dispositivos fotovoltaicos, os resultados até então obtidos mostraram-se inconclusivos, sendo digno de nota, no entanto, que o estudo continua sendo conduzido por colaboradores. O trabalho de aplicação dos materiais em dispositivos magnetorresistivos apresentou resultados interessantes para os oligômeros FBF, BFB, FFF e FF, visto que dispositivos fabricados a partir das referidas espécies mostraram variação em seus valores de corrente elétrica quando submetidos a campo magnético de 200 mT. Por fim, foram desenvolvidos narizes eletrônicos com duas finalidades distintas: (a) identificação de diferentes espécies de madeira de interesse ambiental e (b) estudo da influência da atividade física no indivíduo por meio da análise do suor. Os sensores de gás foram preparados por meio da deposição de finos filmes de materiais orgânicos conjugados dopados sobre a superfície de eletrodos interdigitados. No estudo acerca da identificação de espécies de madeira, a análise de leave-one-out revelou 100 % de taxa de acerto na diferenciação entre as espécies angelim, cedro-rosa, imbuia e perobinha. O estudo da influência da atividade física no indivíduo também se mostrou promissor na medida em que identificou os diferentes estágios do exercício físico com taxa de acerto de 93 %, também definida pela técnica estatística de leave-one-out. / The present work consists on the synthesis of two polymers - poly(2,1,3- benzothiadiazole-4,7-ylenevinylene-alt-9,9-n-dioctyl-2,7-fluorenylenevinylene) (PBTDV-alt-PDO27FV) and poly[4,7-(2,1,3-benzothiadiazole-ylene)-alt-(2,5-dioctyloxy-1,4-phenylenevinylene)] (PBTDV-alt-PDOPPV) - five oligomers - 4,7-bis(2-(9,9-n-dioctyl- 9H-fluorene-2-yl)vinyl)2,1,3-benzothiadiazole (FBF); 2,7-bis(2-(2,1,3- benzothiadiazole-4-yl)vinyl)9,9-n-dioctyl-9H-fluorene (BFB); 4-(2-(9,9-n-dioctyl-9H-fluorene-2-yl)vinyl)2,1,3-benzothiadiazole (FB); 1,2-bis(9,9-n-dioctyl-9H-fluorene)2- vinylene (FF) and 2,2\'-(2,2\'-(9,9-n-dioctyl-9H-fluorene)2,7-bis(vinylene)bis(9,9-n-dioctyl-9H-fluorene) (FFF) - and three small molecules - 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(6-fluoro-4-(5\'-hexyl-[2\'-thiophene-2\'- thiazole]-5-yl)benzo[c][1,2,5]thiadiazole (G37FBT); 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(6-fluoro-4-(2\'-isobutyl-[5\',2\'-dithiazole]-5-yl)benzo[c][1,2,5]thiadiazole (J1) and 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(5\'-hexyl-[2,2-bithiophene]-5-bis(yl)benzo[c][1,2,5]thiadiazole) (J2) - followed by the application of such materials in organic photovoltaics (OPV), magnetoresistive devices and gas sensors. The polymers and oligomers are all poli(p-phenylenevinylene)s derivatives containing 2,1,3-benzothiadiazole and/or substituted fluorene units in the main chain. Those materials\' preparation comprises a coupling Wittig reaction as the key step, through which the vinylenic bonds are formed. The small molecules mentioned above were synthesized by successive organostannane preparations followed by cross-coupling Stille reactions, leading to the target-compounds in considerably high yields. Although the route is a very useful methodology for synthesizing organic conjugated small molecules, J2 was not successfully prepared. The reaction led to a J2 analogue instead, that was properly isolated and characterized. The application of the cited materials in organic photovoltaics (OPVs) is still in progress, since the study has shown inconclusive results so far. The study of the organic magnetoresistive properties of the synthesized materials has led to interesting results for the oligomers FBF, BFB, FFF and FF. The devices containing those compounds in their active layers presented considerable variations in their electric current values when submitted to a magnetic field of 150 mT magnitude. Finally, electronic noses for two different applications were developed: (a) the identification of wood species that can be easily mistaken and (b) the study of exercise physiology through analyses of sweat samples. The gas sensors were prepared by the deposition of doped organic conjugated materials thin films onto the surface of intedigitated electrodes. The study on the differentiation of several species of wood showed 100 % rate of hits determined by leave-one-out statistics analysis. The study on the exercise physiology was also promising since it allowed the identification of the three different stages of the physical exercise with a 93 % rate of hits, also determined by leave-one-out methods. Thus, both studies suggest that the electronic nose can be a powerful tool to study many different targets in which the release of volatile compounds is involved

Baixa Egap

Electronic noses

Exercise physiology

Fisiologia do exercício

Gas sensors

Low Egap

Madeira

Magnetorresistência orgânica (OMAR)

Narizes eletrônicos

Organic magnetoresistance (OMAR)

Poli(p-fenilenovinileno)s (PPVs)

Poly(p-phenylenevinylene)s (PPVs)

Sensores de gás

Small molecules

Small molecules

Wood

Novos poli(p-xilileno)s e poli(p-fenileno vinileno)s obtidos via quinodimetanos gerados catodicamente / Novel poly(p-xylylene) s and poly (p-phenylene vinylene) are obtained via cathodically generated quinodimethanes

Li, Rosamaria Wu Chia

14 November 2002

Esta tese envolveu a síntese de 11 precursores poliméricos inéditos, derivados de bifenilos e terfenilos, substituídos por grupos receptores e doadores de elétrons, por meio de reações de acoplamento de Suzuki. Tais precursores foram convertidos aos respectivos polímeros, poli(p-xilileno)s e poli(p-fenileno vinileno)s, via redução catódica, conduzindo a um total de 11 polímeros, sendo dez deles inéditos. Os polímeros obtidos foram caracterizados por métodos espectroscópicos (UV-VIS, IV, RMN), análises térmicas, SEC e medidas de condutividade elétrica pós-dopagem. Um dos polímeros foi empregado na construção de dispositivos metal/polímero/metal (\"sanduíche\"), que permitiram a determinação da mobilidade dos portadores de carga, bem como da altura de barreira para injeção de elétrons na junção metal/polímero. / The synthesis via Suzuki coupling reaction of 11 new biphenylenic and terphenylenic polymer precursors, substituted by long-chain electron donating or withdrawing groups, is described. The electrochemical reduction of these precursors led to the corresponding poly(p-xylylene)s and poly(p-phenylene vinylene)s. Ten out of the 11 generated polymers have been never described before. AII the polymers were fully characterised by spectroscopic (UV-VIS, IR, NMR) and thermal analyses, as well as by SEC and electrical conductivity measurements of iodine-doped specimens. The positive charge carrier mobility and the barrier height for electron injection (metal/polymer) could be determined through I x V investigations of sandwich devices (metal/polymer/metal) for one of the polymers.

Conductive polymers

Electrochemical synthesis

Organic chemistry

Poli p-fenilenovinileno

Poli p-terfenilenovinileno

Polímeros (Química orgânica)

Polímeros condutores

Poly p-phenylenevinylene

Poly p-terphenylene vinylene

Polymers (Organic chemistry)

PPV

PPV

PPX

PPX

Química orgânica

Síntese eletroquímica

Síntese de materiais orgânicos conjugados com baixa Egap para aplicação em células solares, magnetorresistores e narizes eletrônicos / Synthesis of organic conjugated materials with low bandgap for application in solar cells, magnetoresistors and electronic noses

Juliana Ribeiro Cordeiro

17 September 2014

Os objetivos do presente trabalho consistem na síntese de dois polímeros - poli(2,1,3-benzotiadiazol-4,7-ilenovinileno-alt-9,9-n-dioctil-2,7-fluorenilenovinileno) (PBTDV-alt-PDO27FV) e poli[4,7-(2,1,3-benzotiadiazolileno)-alt-(2,5-dioctilóxi-1,4- fenilenovinileno)] (PBTDV-alt-PDOPPV) - cinco oligômeros - 4,7-bis(2-(9,9-n-dioctil-9H-fluoren-2-il)vinil)2,1,3-benzotiadiazol (FBF); 2,7-bis(2-(2,1,3-benzotiadiazol-4-il)vinil)9,9-n-dioctil-9H-fluoreno (BFB); 4-(2-(9,9-n-dioctil-9H-fluoren-2-il)vinil)2,1,3-benzotiadiazol (FB); 1,2-bis(9,9-n-dioctil-9H-fluoren)2-vinileno (FF) e 2,2\'-(2,2\'-(9,9-n-dioctil-9H-fluoreno)2,7-bis(vinileno)bis(9,9-n-dioctil-9H-fluoreno) (FFF) - e três small molecules - 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(6-fluoro-4-(5\'-hexil-[2\'-tiofeno-2\'-tiazol]-5-il)benzo[c][1,2,5]tiadiazol (G37FBT); 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(6-fluoro-4-(2\'-isobutil-[5\',2\'-ditiazol])-5-il)benzo[c][1,2,5]tiadiazol (J1) e 7,7\'-(4,4-bis(2-etil-hexil)-4H-silolo[3,2-b-:4,5-b\']ditiofen-2,6-diil)bis(5\'-hexil-[2,2\'-bitiofeno]-5- bis(il)benzo[c][1,2,5]tiadiazol) (J2) - seguida da aplicação desses materiais em dispositivos fotovoltaicos e magnetorresistivos e em sensores de gás. Os polímeros e oligômeros preparados são derivados de poli(p-fenilenovinileno) e contêm unidades de fluoreno e/ou 2,1,3-benzotiadiazol, tendo sido empregada, na etapa final de cada síntese, reação de Wittig visando ao acoplamento e à formação das duplas vinilênicas. As small molecules, preparadas por meio de sucessivas formações de organo-estananas e reações de Stille, também foram sintetizadas com sucesso e em rendimentos apreciáveis. A espécie J2 não foi preparada com sucesso, obtendo-se, em contrapartida, um análogo dessa molécula, que foi devidamente isolado e caracterizado. No que tange à aplicação dos materiais em dispositivos fotovoltaicos, os resultados até então obtidos mostraram-se inconclusivos, sendo digno de nota, no entanto, que o estudo continua sendo conduzido por colaboradores. O trabalho de aplicação dos materiais em dispositivos magnetorresistivos apresentou resultados interessantes para os oligômeros FBF, BFB, FFF e FF, visto que dispositivos fabricados a partir das referidas espécies mostraram variação em seus valores de corrente elétrica quando submetidos a campo magnético de 200 mT. Por fim, foram desenvolvidos narizes eletrônicos com duas finalidades distintas: (a) identificação de diferentes espécies de madeira de interesse ambiental e (b) estudo da influência da atividade física no indivíduo por meio da análise do suor. Os sensores de gás foram preparados por meio da deposição de finos filmes de materiais orgânicos conjugados dopados sobre a superfície de eletrodos interdigitados. No estudo acerca da identificação de espécies de madeira, a análise de leave-one-out revelou 100 % de taxa de acerto na diferenciação entre as espécies angelim, cedro-rosa, imbuia e perobinha. O estudo da influência da atividade física no indivíduo também se mostrou promissor na medida em que identificou os diferentes estágios do exercício físico com taxa de acerto de 93 %, também definida pela técnica estatística de leave-one-out. / The present work consists on the synthesis of two polymers - poly(2,1,3- benzothiadiazole-4,7-ylenevinylene-alt-9,9-n-dioctyl-2,7-fluorenylenevinylene) (PBTDV-alt-PDO27FV) and poly[4,7-(2,1,3-benzothiadiazole-ylene)-alt-(2,5-dioctyloxy-1,4-phenylenevinylene)] (PBTDV-alt-PDOPPV) - five oligomers - 4,7-bis(2-(9,9-n-dioctyl- 9H-fluorene-2-yl)vinyl)2,1,3-benzothiadiazole (FBF); 2,7-bis(2-(2,1,3- benzothiadiazole-4-yl)vinyl)9,9-n-dioctyl-9H-fluorene (BFB); 4-(2-(9,9-n-dioctyl-9H-fluorene-2-yl)vinyl)2,1,3-benzothiadiazole (FB); 1,2-bis(9,9-n-dioctyl-9H-fluorene)2- vinylene (FF) and 2,2\'-(2,2\'-(9,9-n-dioctyl-9H-fluorene)2,7-bis(vinylene)bis(9,9-n-dioctyl-9H-fluorene) (FFF) - and three small molecules - 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(6-fluoro-4-(5\'-hexyl-[2\'-thiophene-2\'- thiazole]-5-yl)benzo[c][1,2,5]thiadiazole (G37FBT); 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(6-fluoro-4-(2\'-isobutyl-[5\',2\'-dithiazole]-5-yl)benzo[c][1,2,5]thiadiazole (J1) and 7,7\'-(4,4-bis(2-ethyl-hexyl)-4H-silolo[3,2-b-:4,5-b\']dithiophene-2,6-diyl)bis(5\'-hexyl-[2,2-bithiophene]-5-bis(yl)benzo[c][1,2,5]thiadiazole) (J2) - followed by the application of such materials in organic photovoltaics (OPV), magnetoresistive devices and gas sensors. The polymers and oligomers are all poli(p-phenylenevinylene)s derivatives containing 2,1,3-benzothiadiazole and/or substituted fluorene units in the main chain. Those materials\' preparation comprises a coupling Wittig reaction as the key step, through which the vinylenic bonds are formed. The small molecules mentioned above were synthesized by successive organostannane preparations followed by cross-coupling Stille reactions, leading to the target-compounds in considerably high yields. Although the route is a very useful methodology for synthesizing organic conjugated small molecules, J2 was not successfully prepared. The reaction led to a J2 analogue instead, that was properly isolated and characterized. The application of the cited materials in organic photovoltaics (OPVs) is still in progress, since the study has shown inconclusive results so far. The study of the organic magnetoresistive properties of the synthesized materials has led to interesting results for the oligomers FBF, BFB, FFF and FF. The devices containing those compounds in their active layers presented considerable variations in their electric current values when submitted to a magnetic field of 150 mT magnitude. Finally, electronic noses for two different applications were developed: (a) the identification of wood species that can be easily mistaken and (b) the study of exercise physiology through analyses of sweat samples. The gas sensors were prepared by the deposition of doped organic conjugated materials thin films onto the surface of intedigitated electrodes. The study on the differentiation of several species of wood showed 100 % rate of hits determined by leave-one-out statistics analysis. The study on the exercise physiology was also promising since it allowed the identification of the three different stages of the physical exercise with a 93 % rate of hits, also determined by leave-one-out methods. Thus, both studies suggest that the electronic nose can be a powerful tool to study many different targets in which the release of volatile compounds is involved

Baixa Egap

Fisiologia do exercício

Madeira

Magnetorresistência orgânica (OMAR)

Narizes eletrônicos

Poli(p-fenilenovinileno)s (PPVs)

Sensores de gás

Small molecules

Electronic noses

Exercise physiology

Gas sensors

Low Egap

Organic magnetoresistance (OMAR)

Poly(p-phenylenevinylene)s (PPVs)

Small molecules

Wood

Novos poli(p-xilileno)s e poli(p-fenileno vinileno)s obtidos via quinodimetanos gerados catodicamente / Novel poly(p-xylylene) s and poly (p-phenylene vinylene) are obtained via cathodically generated quinodimethanes

Rosamaria Wu Chia Li

14 November 2002

Esta tese envolveu a síntese de 11 precursores poliméricos inéditos, derivados de bifenilos e terfenilos, substituídos por grupos receptores e doadores de elétrons, por meio de reações de acoplamento de Suzuki. Tais precursores foram convertidos aos respectivos polímeros, poli(p-xilileno)s e poli(p-fenileno vinileno)s, via redução catódica, conduzindo a um total de 11 polímeros, sendo dez deles inéditos. Os polímeros obtidos foram caracterizados por métodos espectroscópicos (UV-VIS, IV, RMN), análises térmicas, SEC e medidas de condutividade elétrica pós-dopagem. Um dos polímeros foi empregado na construção de dispositivos metal/polímero/metal (\"sanduíche\"), que permitiram a determinação da mobilidade dos portadores de carga, bem como da altura de barreira para injeção de elétrons na junção metal/polímero. / The synthesis via Suzuki coupling reaction of 11 new biphenylenic and terphenylenic polymer precursors, substituted by long-chain electron donating or withdrawing groups, is described. The electrochemical reduction of these precursors led to the corresponding poly(p-xylylene)s and poly(p-phenylene vinylene)s. Ten out of the 11 generated polymers have been never described before. AII the polymers were fully characterised by spectroscopic (UV-VIS, IR, NMR) and thermal analyses, as well as by SEC and electrical conductivity measurements of iodine-doped specimens. The positive charge carrier mobility and the barrier height for electron injection (metal/polymer) could be determined through I x V investigations of sandwich devices (metal/polymer/metal) for one of the polymers.

Poli p-fenilenovinileno

Poli p-terfenilenovinileno

Polímeros (Química orgânica)

Polímeros condutores

PPV

PPX

Química orgânica

Síntese eletroquímica

Conductive polymers

Electrochemical synthesis

Organic chemistry

Poly p-phenylenevinylene

Poly p-terphenylene vinylene

Polymers (Organic chemistry)

PPV

PPX

Excitation Energy Transfer In Donor-Acceptor Systems Involving Metal Nanoparticles, And In Conjugated Polymers

Saini, Sangeeta

07 1900

This thesis consists of two parts and nine chapters. The first part (Part I) presents theoretical studies on non-radiative mode of excitation energy transfer (EET) in donor-acceptor (D-A) systems involving metal nanoparticles. Part I contains four chapters and describes EET in following different D-A systems: (i) dye and a spherical metal nanoparticle of different sizes, (ii) two spherical metal nanoparticles, and (iii) two prolate shaped metal nanoparticles at different relative orientations. Part II provides a detailed study on the origin of photochemical funneling of excitation energy in conjugated polymers like poly-[phenylenevinylene] (PPV) and consists of three chapters. The ninth chapter provides a concluding note. The thesis begins with a basic introduction on Forster resonance energy transfer(FRET), presented in chapter 1. This chapter provides a detail derivation of Forster’s rate expression for a non-radiative process of EET from a donor to an acceptor molecule and discusses the limitations of Forster theory. The chapter highlights the huge success of FRET technique in understanding biological processes assisted by changes in conformations of biopolymers under conditions where Frster theory is valid. The chapter also discusses practical limitations of FRET technique such as use of pre-averaged value of orientation factor and photobleaching of dye molecules. Part I starts with chapter 2 which explains the advantages of using metal nanoparticles over dye molecules in D-A systems. The chapter discusses recent experimental re-ports of excitation energy transfer to nanoparticles, now commonly referred to as nanoparticle surface energy transfer (NSET). Theories describing the process of EET from a dye molecule (dye molecule is assumed to be a point dipole) to a planar metallic surface are discussed. In the case of energy transfer from a donor dye molecule to a planar metallic surface, the distance dependence of the rate of EET is found to vary as 1/d4 where dis a distance from the center of a dye molecule to the metallic surface. This is unlike conven-tional FRET where rate of EET follows 1/R6 distance dependence with R as a distance between the centers of D and A. Also, a recent experimental study by Yun et al [J. Am. Chem. Soc. 127, 3115 (2005)] on energy transfer from a dye molecule to a spherical gold nanoparticle reports that the rate of EET follows 1/d4 distance dependence. The remaining chapters of this part focus on understanding this deviation from the Forster theory in different D-A systems. Chapter 3 describes quantized electro-hydrodynamic approach used to model the plasmonic excitations in metal nanoparticles. The optical absorption frequencies of nanoparticles computed here are subsequently used in chapters 4 and 5 for the calculation of the rate of EET. The chapter discusses the merits and de-merits of electro-hydrodynamic approach in comparison to other available techniques. The electro-hydrodynamic method of calculating the absorption frequencies provide a physically appealing, mathematically simple and numerically tractable approach to the problem and is also at the same time, semi-quantitatively reliable. The optical frequencies obtained as a function of size and aspect ratio of metal nanoparticles are found to be in good agreement with physical predictions. Chapter 4 studies the distance dependence of rate of EET for a D-A system similar to one studied by Yun et al [J. Am. Chem. Soc. 127, 3115 (2005)]. The chapter contains the relevant derivations of the quantities required for computing the interaction matrix elements. The dependence of the rate of EET on R is found surprisingly to be in agreement with Forster theory even at intermediate distances compared to the size of spherical nanoparticles (a). However, the dependence of rate of EET on d is found to vary as 1/dσwith σ=3 - 4 at intermediate distances which is in good agreement with the experimental results of Yun et al. At large values of d, the distance dependence of rate is found to vary as 1/d6 . The chapter discusses the physical basis behind these results. The theory predicts a non-trivial dependence of rate on the size of a nanoparticle which ultimately attains the asymptotic a3 size dependence. The rate of EET is also studied for different orientations of dye molecule. Chapter 5 studies surface plasmon mediated EET between two metal nanoparticles. The rate of EET between two prolate and spherical shaped silver nanoparticles is studied as a function of Rand d. d, in present chapter denotes surface-to-surface separation distance between two nanoparticles. In case of EET between two non-spherical nanoparticles, even at separations larger than the size of the nanoparticle, a significant deviation from 1/R6 dependence is obtained. However, 1/R6 distance dependence of EET rate is found to be robust for spherical nanoparticles over an entire range of separations. The deviation of rate from 1/R6 distance dependence becomes more pronounced with in-crease in the aspect ratio of the nanoparticle. The relative orientation of the nanoparticles is found to markedly influence the R-dependence of EET rate. Interestingly, the relative orientation of nanoparticles effect the d-distance dependence of the rate to a lesser extend in comparison to the R-dependence of the rate. Therefore, we predict that for non-spherical nanoparticles studying EET rate as a function of will provide more conclusive results. The chapter also discusses the size dependence of rate of EET for this particular D-A system. In Part II, excitation energy transfer (EET) in a conjugated polymer is studied. To start with, chapter 6 provides a brief introduction to photophysics of conjugated polymers. The chapter discusses the nature of photoexcitations in these systems and stresses on the influence of polymer’s morphology on the optical properties of conjugated polymers. Chapter 7 describes the theory used for modeling conjugated polymer chain. A polymer chain consists of number of spectroscopic units (chromophores) of varying lengths. The average length of chromophores in conjugated polymer depends on defect concentration. In the present study we treat an excitation generated on each chromophore within “particle-in-a-box” formalism but one that takes into account the electron-hole interactions. The transition dipole moments and the radiative rates are computed for different lengths of chromophores with parameters appropriate for PPV chain. These quantities are used in chapter 8 for calculating the absorption and emission spectra of conjugated polymer chains at different defect concentrations. The main aim of Chapter 8 is to understand the origin of photochemical funneling of excitation energy in conjugated polymers. PPV chain is modeled as a polymer with the length distribution of chromophores given either by a Gaussian or by a Poissonian distribution. We observe that the Poissonian distribution of length segments explains the optical spectra of PPV rather well than the Gaussian distribution. The Pauli’s master equation is employed to describe the excitation energy transfer among different chromophores. The rate of energy transfer is assumed to be given here, as a first approximation, by the well-known Forster expression. The observed excitation population dynamics confirm the photochemical funneling of excitation energy from shorter to longer chromophores of the polymer chain. The calculations show that even in steady state more than one type of chromophore contribute towards the emission spectrum. The observed difference between the calculated emission spectra at equilibrium and in steady state indicates the existence of local domains in a polymer chain within which the non-radiative excitation energy transfer from shorter to longer chromophores take place. These results are found to be in agreement with recent experimental reports. The concluding chapter 9 gives a brief summary of the outcome of the thesis and ends up with suggestion of a few future problems which in current scenario are of great interest.

Excitation Energy

Donor-Acceptor System

Conjugated Polymers

Forster Resonance Energy Transfer (FRET)

Conjugated Polymers - Energy Transfer

Metal Nanoparticles

Excitation Energy Trasnsfer (EET)

Energy Transfer

Poly(phenylenevinylene) (PPV)

Metal Nanoparticle

Resonance Energy Transfer

Nanotechnology