Hamish Stewart scite author profile

A detailed experimental and theoretical study has been undertaken of the UV photofragmentation spectroscopy of the alkaline earth metal dications Mg(2+), Ca(2+), and Sr(2+) complexed with pyridine and 4-methyl pyridine (4-picoline). The ion complexes have been prepared using the pick-up technique and held in an ion trap where their internal temperature has been reduced to <150 K. Exposure of the trapped ions to tunable UV laser radiation leads to the appearance of photofragments with intensities that show significant variation as a function of wavelength. For all three metal dications, the resultant spectra show evidence of resolved features. Time-dependent density functional theory (TDDFT) has been used to identify possible electronic transitions that might be present in the [M(pyridine)(4)](2+) complexes (M = Mg, Ca, and Sr) within the wavelength range studied. These calculations show that the spectra are dominated by strong π* ← π and weaker π* ← n transitions localized on the pyridine ligands. The calculations correctly identify those regions of the experimental spectra where UV transitions begin to occur in the complexes and also the wavelengths at which absorption maxima are reached; however, more subtle features of the spectra are difficult to assign with confidence.

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Activation of Methane by the Pyridine Radical Cation and its Substituted Forms in the Gas Phase

Stewart

Liu

et al. 2015

J. Am. Soc. Mass Spectrom.

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Abstract. We present an experimental study of methane activation by pyridine cation and its substituents in the gas phase. Mass spectrometric experiments in an ion trap demonstrate that pyridine cation and some of its substituent cations are able to react with methane. The deuterated methane experiment has confirmed that the hydrogen atom in the ionic product of reaction does come from methane. The collected information about kinetic isotope effects has been used to distinguish the nature of the bond activation as a hydrogen abstraction. Furthermore, experimental results demonstrated that the substituent groups on the pyridine ring can crucially influence their reactivity in methane bond activation processes. Density functional calculation (DFT) was employed to study the electronic structures of the complex and reaction mechanism of CH 4 +C 5 H 5 N + . The calculations confirmed the hypothesis from the experimental observation, namely, the reaction is rapid with no energy barrier.

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Photochemical Studies of Metal Dication Complexes in an Ion Trap

Wu¹,

Stewart²,

Stace³

2010

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Hamish Stewart

State-resolved UV photofragmentation spectrum of the metal dication complex [Zn(pyridine)4]2+

The UV photofragmentation spectroscopy of the metal dication complex [Mn(pyridine)₄]²⁺

Ultraviolet Photofragmentation Spectroscopy of Alkaline Earth Dication Complexes with Pyridine and 4-Picoline (4-Methyl pyridine)

Activation of Methane by the Pyridine Radical Cation and its Substituted Forms in the Gas Phase

Photochemical Studies of Metal Dication Complexes in an Ion Trap

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Hamish Stewart

State-resolved UV photofragmentation spectrum of the metal dication complex [Zn(pyridine)4]2+

The UV photofragmentation spectroscopy of the metal dication complex [Mn(pyridine)4]2+

Ultraviolet Photofragmentation Spectroscopy of Alkaline Earth Dication Complexes with Pyridine and 4-Picoline (4-Methyl pyridine)

Activation of Methane by the Pyridine Radical Cation and its Substituted Forms in the Gas Phase

Photochemical Studies of Metal Dication Complexes in an Ion Trap

Contact Info

Product

Resources

About

The UV photofragmentation spectroscopy of the metal dication complex [Mn(pyridine)₄]²⁺