Study on Metalated and Cross-Conjugated Expanded Porphyrins / 環拡張ポルフィリンの金属錯体及び交差共役系環拡張ポルフィリンに関する研究

Naoda, Koji

23 March 2017

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20200号 / 理博第4285号 / 新制||理||1615(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 大須賀 篤弘, 教授 依光 英樹, 教授 丸岡 啓二 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Expanded Porphyrin

Porphyrin

Hexaphyrin

Metal Complex

Cross-Conjugation

400

Phenyleneethynylenes: Structure, Morphology and Photophysical Properties of Novel Pi Systems

Wilson, James Norbert

02 December 2004

The syntheses of novel poly(paraphenyleneethynylene)s, PPEs, and poly(aryleneeethynylene)s, PAEs, as well as hybrid poly(paraphenyleneethynylene)- poly(paraphenylenevinylene)s, PPE-PPVs, are presented. Fluorescent PPEs decorated with biologically relevant ligands are utilized in model biosensing schemes. PPE-PPV hybrids, as well as their highly emissive oligomeric, cruciform model compounds are studied in an effort to modify the bandgap of the parent PPE backbone. Improved hole and electron injection capabilities are demonstrated with these hybrid conjugated materials. Structural variation and morphological effects of PPEs, PPE-PPVs and model compounds are studied to elucidate the effects upon the photophysical properties of the emissive materials.

Conjugated polymers

Cross conjugation

Alkynes

Aromatic

Nanostructures

Sensors

Polymers Optical properties

Biosensors

Chemical detectors

Bridge Mediated Electron Transfer in Conjugated and Cross-Conjugated Donor-Acceptor Compounds

Göransson, Erik

January 2012

Detailed understanding of electron transfer reactions is important in many aspects of chemistry, biology and solar energy conversion. The main aim of this thesis is to provide further insight into electron transfer through highly conjugated bridge structures. Towards this end, three series of donor-acceptor dyads have been studied, all using an oligo(1,4-phenylene-ethynylene) moiety as the bridge. A common theme in these series is that they explore the effects of having either an ethynylene or phenylene as the attachment group between the bridge and the donor or acceptor. Photophysical characterization of these dyads was carried out by means of time resolved laser spectroscopy. The results show that having an ethynylene as attachment group results in higher rates for bridge mediated electron and energy transfer compared to similar systems, where a phenylene was used. It was also found that most of the investigated systems show a fast back electron transfer. A notable exception is a zinc(II) phthalocyanine- gold(III) porphyrin dyad, where very fast photoinduced electron transfer (kPET = 1.0×1012 s-1) was followed by relatively slow back electron transfer (kBET = 1.0×109 s-1). A complementary DFT investigation indicated that the charge shifted state involves a reduction of the gold ion, rather than the porphyrin ring. This results in lower electronic coupling between the reduced gold porphyrin and the bridge and thus slower back electron transfer. A series of zinc porphyrin platinum acetylide dyads was used to explore the effects on electronic coupling of different attachments points on the porphyrin ring. For the investigated system it was found that linking at the meso-position results in an eight-fold increase in electron transfer rate compared to the β-position. In addition, a series of mixed valence compounds was used to investigate electronic coupling mediated by cross-hyperconjugated or cross-π-conjugated bridges. The results indicate coupling elements of 100-400 cm-1, with the cross-π-conjugated bridge having the largest coupling. A complementary TD-DFT study indicates that both through bond and through space coupling can be active in these systems. The relative contribution of these two mechanisms to the electronic coupling is highly conformer dependent.

Electron transfer

Ultrafast

Long-range

Intervalence charge transfer

cross conjugation

hyperconjugation

SYNTHESIS OF TETRABENZO[18]CYCLYNE CROSS-CONJUGATED MACROCYCLES WITH FOCUS ON THE DONOR-ACCEPTOR INDUCED FUNCTIONALITY

Ponsot, Amanda Eileen

09 August 2010

No description available.

Organic Chemistry

tetrabenzocyclyne

nanoelectronics

light-harvesting

sonogashira coupling

materials

donor-bridge-acceptor

electronic devices

shape-persistent

macrocycle

organic

synthesis

functionality

cross-conjugation

molecular wire

molecular design