The spectroscopic analysis of di-copper helicates as receptors for encapsulating anions : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Chemistry at Massey University, Palmerston North, New Zealand

Knapp, Quintin Wayne

January 2009

The application of neutral dicopper helicates to the encapsulation of a number of anions was investigated. Two dicopper salen derived helicates were studied which contained phenolic and either iminophenyl (1) or oxime (2) donor groups. UV-visible spectroscopy was used to determine the binding stoichiometry and formation constants of the anion complexes. Complex binding was supported by electrospray ionisation mass spectrometry. Receptor 1 possessed a remarkable selectivity for sulfate in isopropanol (IPA) for which a log K value of 5.07 ± 0.24 was obtained. Receptor 2 bound all anions studied more strongly than 1. Crystal structural data supports the proposition that there is a steric barrier to contraction of 1 from the bulky iminophenyl groups. Receptor 2 was not restricted by the small oxime moieties allowing for optimum copper-anion interactions.

anion complexes

sulfate

iminophenyl

copper-anion interaction

Electron Transfer and Other Reactions Using Atomic Metal Anions

Butson, Jeffery M.

04 February 2014

The atomic metal anions Rb-, Cs-, Cu-, Ag- and Fe- have been generated in the gas phase and reacted with various neutral reactants in a triple quadrupole mass spectrometer. The metal anions were formed via electrospray ionization of the metal-oxalate solutions and form in gas phase between the capillary and the first quadrupole. Neutral gas phase reactants investigated include NO, NO2, SO2, C6F5OH, C6F5NH2, C6F6, E-octafluoro-butene and 1,2,3/1,2,4/1,3,5 trifluoro-benzene. When possible, CBS-4M methods were used to suggest the lowest energy products based on relative energy. Observed reactions of atomic metal anions with the aforementioned neutral species include electron transfer and dissociative electron transfer to the neutral gas phase reactants. In addition, hydrogen abstraction and fluorine abstraction forming a neutral metal hydride or fluoride as well as the formation of multiply substituted metal-oxide/fluoride anions was also observed. Metal-complex anions observed from the gas phase reactions include CuF-,CuF2-,CuO-,CuO2-, FeO-, FeO2-, FeO3-, FeF-, FeF2-, FeF3-, CsF- and CsF2-.

Metal

Anion

Metal Anion

Atomic

Atomic Metal Anion

Atomic Metals

Atomic Metal Anions

Anions

Metals

Mass Spectrometer

Triple Quadrupole

Rb

Cs

Fe

Cu

Ag

Cs-

Rb-

Fe-

Cu-

Ag-

pentafluoroaniline

pentafluorophenol

nitrogen dioxide

sulfur dioxide

nitrogen oxide

nitrogen monoxide

oxygen

oxalic

oxalic acid

gas phase

electrospray

ionization

electrospray ionization

electro-spray ionization

electro-spray

hexafluorobenzene

1,2,3-trifluorobenzene

1,2,4-trifluorobenzene

1,3,5-trifluorobenzene

fluorine

E-octafluoro-butene

octafluoro-butene

octafluoro butene

CBS-4M

abstraction

hydrogen abstraction

fluorine abstraction

hydride

fluoride

metal hydride

metal fluoride

caesium fluoride

rubidium fluoride

iron fluride

copper fluoride

rubidium

caesium

iron

copper

silver

iron anion

copper anion

rubidium anion

caesium anion

silver anion

cesium

cesium anion

atomic caesium anion

atomic cesium anion

atomic rubidium anion

atomic iron anion

atomic copper anion

atomic silver anion

1,2,3 trifluorobenzene

1,2,4 trifluorobenzene

1,3,5 trifluorobenzene

copper fluoride anion

iron fluoride anion

copper difluoride

copper difluoride anion

iron difluoride

iron difluoride anion

iron trifluoride

iron trifluoride anion

cesium fluoride

cesium fluoride anion

caesium difluoride anion

caesium difluoride

cesium difluoride

cesium difluoride anion

caesium fluoride anion

nitrogen monoxide anion

sulfur dioxide anion

nitrogen dioxide anion

copper oxide

copper oxide anion

copper dioxide

copper dioxide anion

iron oxide

iron oxide anion

iron dioxide

iron dioxide anion

iron trioxide

iron trioxide anion

electron transfer

Electron Transfer and Other Reactions Using Atomic Metal Anions

Butson, Jeffery M.

January 2014

The atomic metal anions Rb-, Cs-, Cu-, Ag- and Fe- have been generated in the gas phase and reacted with various neutral reactants in a triple quadrupole mass spectrometer. The metal anions were formed via electrospray ionization of the metal-oxalate solutions and form in gas phase between the capillary and the first quadrupole. Neutral gas phase reactants investigated include NO, NO2, SO2, C6F5OH, C6F5NH2, C6F6, E-octafluoro-butene and 1,2,3/1,2,4/1,3,5 trifluoro-benzene. When possible, CBS-4M methods were used to suggest the lowest energy products based on relative energy. Observed reactions of atomic metal anions with the aforementioned neutral species include electron transfer and dissociative electron transfer to the neutral gas phase reactants. In addition, hydrogen abstraction and fluorine abstraction forming a neutral metal hydride or fluoride as well as the formation of multiply substituted metal-oxide/fluoride anions was also observed. Metal-complex anions observed from the gas phase reactions include CuF-,CuF2-,CuO-,CuO2-, FeO-, FeO2-, FeO3-, FeF-, FeF2-, FeF3-, CsF- and CsF2-.

Metal

Anion

Metal Anion

Atomic

Atomic Metal Anion

Atomic Metals

Atomic Metal Anions

Anions

Metals

Mass Spectrometer

Triple Quadrupole

Rb

Cs

Fe

Cu

Ag

Cs-

Rb-

Fe-

Cu-

Ag-

pentafluoroaniline

pentafluorophenol

nitrogen dioxide

sulfur dioxide

nitrogen oxide

nitrogen monoxide

oxygen

oxalic

oxalic acid

gas phase

electrospray

ionization

electrospray ionization

electro-spray ionization

electro-spray

hexafluorobenzene

1,2,3-trifluorobenzene

1,2,4-trifluorobenzene

1,3,5-trifluorobenzene

fluorine

E-octafluoro-butene

octafluoro-butene

octafluoro butene

CBS-4M

abstraction

hydrogen abstraction

fluorine abstraction

hydride

fluoride

metal hydride

metal fluoride

caesium fluoride

rubidium fluoride

iron fluride

copper fluoride

rubidium

caesium

iron

copper

silver

iron anion

copper anion

rubidium anion

caesium anion

silver anion

cesium

cesium anion

atomic caesium anion

atomic cesium anion

atomic rubidium anion

atomic iron anion

atomic copper anion

atomic silver anion

1,2,3 trifluorobenzene

1,2,4 trifluorobenzene

1,3,5 trifluorobenzene

copper fluoride anion

iron fluoride anion

copper difluoride

copper difluoride anion

iron difluoride

iron difluoride anion

iron trifluoride

iron trifluoride anion

cesium fluoride

cesium fluoride anion

caesium difluoride anion

caesium difluoride

cesium difluoride

cesium difluoride anion

caesium fluoride anion

nitrogen monoxide anion

sulfur dioxide anion

nitrogen dioxide anion

copper oxide

copper oxide anion

copper dioxide

copper dioxide anion

iron oxide

iron oxide anion

iron dioxide

iron dioxide anion

iron trioxide

iron trioxide anion

electron transfer