Moving in and moving through : a narrative interpretation of the first year at university

Robinson, David N.

January 2003

No description available.

378

School/university transition

The electrical transport properties of niobium-silicon amorphous alloys

Pounder, Neill Malcolm

January 1991

No description available.

530.41

Metal-insulator transition

Hydration of biopolymers to low water content

Hartley, Lee Paul

January 1996

No description available.

664

Glass transition; NMR

Fast infrared spectroscopy of excited states

Westwell, Jeremy R.

January 1994

No description available.

546

Transition metal carbonyls

Spectroscopy in liquefied and supercritical noble gases

Howdle, Steven M.

January 1989

No description available.

547

Transition metal complexes

The synthesis, substitution and reduction of complex ternary oxides

Jones, Martin Owen

January 1993

No description available.

547

Transition metal oxides

A tandem ylide formation and arrangement approach to the synthesis of oxygen heterocycles

Whitlock, Gavin A.

January 1995

No description available.

547

Transition metal catalysis

Over-employment, labour immobility, distress work and firm start-ups : four economic themes of Russia's slow transition to the market

Richter, Andrea

January 1999

No description available.

330

Transition economies; Unemployment

Chemistry of #pi#-arene and #pi#-allyl complexes of molybdenum

Jones, Neale G.

January 2001

No description available.

669

Transition metals

LUMINESCENT TRANSITION METAL COMPLEXES BASED ON N-HETEROCYCLIC AND N^C-CHELATE 4-COORDINATE ORGANOBORYL LIGANDS

Wang, NAN

07 January 2013

The objective of this thesis is to examine the photophysical and structural properties of Ru(II)/Re(I) based bimetallic complexes based on p-[N-2-(2’-pyridyl)benzimidazolyl]-[N-2-(2’-pyridyl)indolyl]-benzene (L1) ligand, as well as the photophysical and photochemical properties of N^C-chelate 4-coordinate organoboron compounds that contain a metal acetylide group. Ligand L1 was synthesized and fully characterized. Due to the incorporation of two distinct chelating sites, an N^N-chelate site and an N^C-chelate site, L1 has been found to be very effective in selective binding to two different metal ions. Two new heterobimetallic complexes Ru(II)-Pt(II) and Ru(II)-Pd(II) using L1 as the bridging ligand were prepared and fully characterized. All Ru(II)-containing complexes have been found to be luminescent. The Pt(II) unit appears to enhance phosphorescent efficiency of the Ru(II) unit while the Pd(II) unit has little influence. Using L1 as the bridging unit, two new Re(I) based heterobimetallic complexes Re(I)-Pt(II) and Re(I)-Pd(II) were also successfully synthesized. Results indicate that there is communication between the two different metal centers. The preliminary results indicated that the mononuclear Re(I) complex based on L1 is a promising candidate for the electrocatalytic CO2 reduction. Pd(II) and Pt(II) complexes were synthesized with an atropisomeric bis-pyridyl chelate ligand bis{3,3’-[N-Ph-2-(2’-py) indolyl]} (L4). To examine the potential use of the trans-chelate L4 ligand in oxidative coupling reactions catalyzed by Pd(II) compounds, acetoxylation of arenes by PhI(OAc)2 using PhI(OAc)2/L4 (2:1) as the catalyst was examined and found to accelerate the reaction, but lower the overall yield. Finally, to examine the impact of metal ions on photochromic properties of N^C-chelate organoboron compounds, three metal acetylide compounds that contain a photo-active N^C-chelate BMes2 unit (B(ppy)Mes2) were prepared and fully characterized. The studies indicated that by taking advantage of different heavy metals the photoisomerization quantum efficiency of the boron chromophores can be readily tuned through the adjustment of 3LC state localized on the chelate backbone or the involvement of MLCT state in the lowest energy electronic transition. / Thesis (Ph.D, Chemistry) -- Queen's University, 2013-01-07 15:20:45.675

luminescent transition metal complexes