A study of transition metal acetylides for broadband optical limiters.

Van Galen, Yvonne Jansen

January 2008

Title page, abstract and table of contents only. The complete thesis in print form is available from the University of Adelaide Library. / With the increasing use of lasers it is necessary to develop materials that can provide protection to eyes and other sensitive devices. This thesis reports on an investigation into optical limiting of Transition Metal Acetylides (TMAs) that transmit ambient light levels of light but block high energy (laser) light across the visible part of the spectrum. A standard optical limiting testbed is used to measure opt~callimiting at 470, 532 and 630 om for a wide range of Pt:ethynyl related TMAs. I report the effect on optical limiting of altering the central bridge, heavy metal, terminal group, solubilising group and oligomerisation. Most of these materials showed poor optical limiting, especially in the red. Two dimers of Pt:ethynyl, however, have clamping levels at 532 om better than that for Pt:ethynyl. I therefore describe a detailed spectroscopic investigation of two series of oligomers and discuss their structure/property relationships. This investigation also includes a precursor ofPtethynyl, PEPE, which shows remarkable limiting. I also report modelling of optical limiting using a 5-level model constructed using the spectroscopic data. I show that the 5-level model can be validated and accurately predicts the limiting for PEPE against both ps and ns pulses. It can also be used to predict ps limiting for Pt:ethynyl and its oligomers. For ns pulses, however, it predicts much less limiting than that observed. I therefore propose a new mechanism that is important for ns limiting by TMAs. Finally I discuss the broadband limiting of these materials and from analysis of the measurements· I describe structures of materials that may show promising broadband optical limiting. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320307 / Thesis (Ph.D.) -- University of Adelaide, School of Chemistry and Physics, 2008

A study of transition metal acetylides for broadband optical limiters.

Van Galen, Yvonne Jansen

January 2008

Title page, abstract and table of contents only. The complete thesis in print form is available from the University of Adelaide Library. / With the increasing use of lasers it is necessary to develop materials that can provide protection to eyes and other sensitive devices. This thesis reports on an investigation into optical limiting of Transition Metal Acetylides (TMAs) that transmit ambient light levels of light but block high energy (laser) light across the visible part of the spectrum. A standard optical limiting testbed is used to measure opt~callimiting at 470, 532 and 630 om for a wide range of Pt:ethynyl related TMAs. I report the effect on optical limiting of altering the central bridge, heavy metal, terminal group, solubilising group and oligomerisation. Most of these materials showed poor optical limiting, especially in the red. Two dimers of Pt:ethynyl, however, have clamping levels at 532 om better than that for Pt:ethynyl. I therefore describe a detailed spectroscopic investigation of two series of oligomers and discuss their structure/property relationships. This investigation also includes a precursor ofPtethynyl, PEPE, which shows remarkable limiting. I also report modelling of optical limiting using a 5-level model constructed using the spectroscopic data. I show that the 5-level model can be validated and accurately predicts the limiting for PEPE against both ps and ns pulses. It can also be used to predict ps limiting for Pt:ethynyl and its oligomers. For ns pulses, however, it predicts much less limiting than that observed. I therefore propose a new mechanism that is important for ns limiting by TMAs. Finally I discuss the broadband limiting of these materials and from analysis of the measurements· I describe structures of materials that may show promising broadband optical limiting. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320307 / Thesis (Ph.D.) -- University of Adelaide, School of Chemistry and Physics, 2008

A study of transition metal acetylides for broadband optical limiters.

Van Galen, Yvonne Jansen

January 2008

Title page, abstract and table of contents only. The complete thesis in print form is available from the University of Adelaide Library. / With the increasing use of lasers it is necessary to develop materials that can provide protection to eyes and other sensitive devices. This thesis reports on an investigation into optical limiting of Transition Metal Acetylides (TMAs) that transmit ambient light levels of light but block high energy (laser) light across the visible part of the spectrum. A standard optical limiting testbed is used to measure opt~callimiting at 470, 532 and 630 om for a wide range of Pt:ethynyl related TMAs. I report the effect on optical limiting of altering the central bridge, heavy metal, terminal group, solubilising group and oligomerisation. Most of these materials showed poor optical limiting, especially in the red. Two dimers of Pt:ethynyl, however, have clamping levels at 532 om better than that for Pt:ethynyl. I therefore describe a detailed spectroscopic investigation of two series of oligomers and discuss their structure/property relationships. This investigation also includes a precursor ofPtethynyl, PEPE, which shows remarkable limiting. I also report modelling of optical limiting using a 5-level model constructed using the spectroscopic data. I show that the 5-level model can be validated and accurately predicts the limiting for PEPE against both ps and ns pulses. It can also be used to predict ps limiting for Pt:ethynyl and its oligomers. For ns pulses, however, it predicts much less limiting than that observed. I therefore propose a new mechanism that is important for ns limiting by TMAs. Finally I discuss the broadband limiting of these materials and from analysis of the measurements· I describe structures of materials that may show promising broadband optical limiting. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320307 / Thesis (Ph.D.) -- University of Adelaide, School of Chemistry and Physics, 2008

A study of transition metal acetylides for broadband optical limiters.

Van Galen, Yvonne Jansen

January 2008

Title page, abstract and table of contents only. The complete thesis in print form is available from the University of Adelaide Library. / With the increasing use of lasers it is necessary to develop materials that can provide protection to eyes and other sensitive devices. This thesis reports on an investigation into optical limiting of Transition Metal Acetylides (TMAs) that transmit ambient light levels of light but block high energy (laser) light across the visible part of the spectrum. A standard optical limiting testbed is used to measure opt~callimiting at 470, 532 and 630 om for a wide range of Pt:ethynyl related TMAs. I report the effect on optical limiting of altering the central bridge, heavy metal, terminal group, solubilising group and oligomerisation. Most of these materials showed poor optical limiting, especially in the red. Two dimers of Pt:ethynyl, however, have clamping levels at 532 om better than that for Pt:ethynyl. I therefore describe a detailed spectroscopic investigation of two series of oligomers and discuss their structure/property relationships. This investigation also includes a precursor ofPtethynyl, PEPE, which shows remarkable limiting. I also report modelling of optical limiting using a 5-level model constructed using the spectroscopic data. I show that the 5-level model can be validated and accurately predicts the limiting for PEPE against both ps and ns pulses. It can also be used to predict ps limiting for Pt:ethynyl and its oligomers. For ns pulses, however, it predicts much less limiting than that observed. I therefore propose a new mechanism that is important for ns limiting by TMAs. Finally I discuss the broadband limiting of these materials and from analysis of the measurements· I describe structures of materials that may show promising broadband optical limiting. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320307 / Thesis (Ph.D.) -- University of Adelaide, School of Chemistry and Physics, 2008

Bimetallocen- und Metallocen-Komplexe in Elektronentransfer- und Katalysestudien

Lohan, Manja

31 March 2011

Die vorliegende Arbeit beschäftigt sich mit der Synthese, dem Reaktionsverhalten und der Elektrochemie von Bimetallocen- und Metallocen-haltigen Komplexen. Die Eignung von Bis(ethinyl)biferrocen- und Bis(ethinyl)biruthenocen-haltigen Brückenbausteinen, intramolekularen Elektronentransfer zwischen zwei identischen Eisen-, Ruthenium- und Osmium-Halbsandwich-Fragmenten zuzulassen, wurde mittels geeigneter Spektroskopiearten untersucht. Weiterhin wurden zwei verschiedene Übergangsmetallkomplexfragmente über den Bis(ethinyl)biferrocen-Brückenbaustein miteinander verknüpft um neuartige gemischte Übergangsmetallacetylide zu erhalten, an welchen ebenfalls Elektronentransferstudien durchgeführt werden konnten. Zusätzlich waren Biferrocenyl- und Metallocenyl-Phosphane Gegenstand der Untersuchungen. Es erfolgte einerseits die Koordination an PtCl2- und Pt(CCFc)2-Fragmente. Die so erhaltenen neuen heterometallischen Platin(II)-Bisacetylide wurden mittels Cyclovoltammetrie und UV-Vis-NIR-spektroelektrochemischen Methoden untersucht um herauszufinden, in welchem Ausmaß Ladungen delokalisiert vorliegen können. Die Biferrocenyl- und Ruthenocenyl-Phosphane wurden andererseits an PdCl2-Bausteine koordiniert und im Anschluss auf ihre Wirksamkeit als (Prä-)Katalysatoren in Palladium-vermittelten Heck- und Suzuki-C-C-Kupplungsreaktionen getestet.

Übergangsmetallacetylide

Biferrocenyl-Phosphane

Ruthenocenyl-Phosphane

Cyclovoltammetrie

UV-Vis-NIR-Spektroskopie

elektronische Kommunikation

Platin(II)

Palladium(II)

Heck-Kreuzkupplung

Suzuki-Kreuzkupplung

Transition metal acetylides

Bimetallocene

Metallocene

Biferrocenyl-Phosphanes

Ruthenocenyl-Phosphanes

UV-Vis-NIR-Spektroscopy

elektronic Communication

Spectroelectrochemistry

Platinum(II)

Palladium(II)

Heck-

Suzuki-Crosscoupling

ddc:546

metallorganische Verbindungen

Bimetallocene

Metallocene

Cyclovoltammetrie

Spektroelektrochemie

Bimetallocen- und Metallocen-Komplexe in Elektronentransfer- und Katalysestudien

Lohan, Manja

01 March 2011

Die vorliegende Arbeit beschäftigt sich mit der Synthese, dem Reaktionsverhalten und der Elektrochemie von Bimetallocen- und Metallocen-haltigen Komplexen. Die Eignung von Bis(ethinyl)biferrocen- und Bis(ethinyl)biruthenocen-haltigen Brückenbausteinen, intramolekularen Elektronentransfer zwischen zwei identischen Eisen-, Ruthenium- und Osmium-Halbsandwich-Fragmenten zuzulassen, wurde mittels geeigneter Spektroskopiearten untersucht. Weiterhin wurden zwei verschiedene Übergangsmetallkomplexfragmente über den Bis(ethinyl)biferrocen-Brückenbaustein miteinander verknüpft um neuartige gemischte Übergangsmetallacetylide zu erhalten, an welchen ebenfalls Elektronentransferstudien durchgeführt werden konnten. Zusätzlich waren Biferrocenyl- und Metallocenyl-Phosphane Gegenstand der Untersuchungen. Es erfolgte einerseits die Koordination an PtCl2- und Pt(CCFc)2-Fragmente. Die so erhaltenen neuen heterometallischen Platin(II)-Bisacetylide wurden mittels Cyclovoltammetrie und UV-Vis-NIR-spektroelektrochemischen Methoden untersucht um herauszufinden, in welchem Ausmaß Ladungen delokalisiert vorliegen können. Die Biferrocenyl- und Ruthenocenyl-Phosphane wurden andererseits an PdCl2-Bausteine koordiniert und im Anschluss auf ihre Wirksamkeit als (Prä-)Katalysatoren in Palladium-vermittelten Heck- und Suzuki-C-C-Kupplungsreaktionen getestet.

info:eu-repo/classification/ddc/546

ddc:546