Intracluster Ion−Molecule Reactions of Ti⁺with Methanol Clusters

Abstract: The intracluster ion-molecule reactions occurring within the titanium/methanol heterocluster ions are studied using a simple cluster source based on the mixing of the laser-ablated plasma with the supersonic expansion of a methanol vapor seeded in Ar carrier gas. The product ions are detected using a reflectron time-of-flight mass spectrometer. The mass spectra exhibit a major sequence of cluster ions with the formula Ti + (CH 3 O) 2 (CH 3 -OH) n , which are attributed to the hydrogen elimination reactions (-2… Show more

“…8,11,12 The observation of peaks corresponding to TiO + indicated that the reaction was initiated by the insertion of Ti + into the C=O bond of an acetone molecule. We postulate that product formation proceeded through the reactions given below.…”

“…The experimental details of the ion-molecule reaction dynamics measurements have been described previously; [8][9][10] therefore, only a brief description is given here. Ti + ions were generated by focusing the third harmonic (355 nm) of a Nd:YAG laser onto a rotating titanium disk, with an illumination area of diameter ~0.5 mm.…”

“…36 It might be argued that sequential H elimination reactions via C-H bond insertions occurred in several CH 3 COCH 3 molecules within a heterocluster, which is the major reaction pathway in the reactions of Ti + with ethanol and dimethyl ether. 8,10 Unfortunately, the ions (Ti + (C3H4O)(CH3COCH3)n) (H eliminations from single acetone molecule) and (Ti + (C3H5O)2(CH3COCH3)n-1) (H eliminations from two acetone molecules) were difficult to distinguish because of their identical masses. However, the absence of Ti + (C3H5O)(CH3COCH3)n product ions in the mass spectrum of Figure 2 indicated that H2 elimination occurred in a single CH3COCH3 molecule only.…”

“…[6][7] During the last few years, we have studied the intracluster ion-molecule reactions of Ti + with various organic molecules (water, alcohols, and esters) with the goal of elucidating the reactivity of Ti + ions and the reaction pathways that lead to heterocluster complex formation. [8][9][10][11][12][13] In particular, the reaction pathways of intracluster ion-molecule reactions of Ti + with ether clusters ((CH3OR)n, R = CH3, n-C3H7, n-C4H9, t-C4H9) appeared to vary depending on the alkyl group in the ether molecule. 10 The major sequences of heterocluster ions with the formulas Ti + (OCH 3 ) m (OR) n (m = 1-3 and n = 0-2) were attributed to the insertion of Ti + ions into the C-O bonds of the ether molecules within the heteroclusters, followed by alkyl radical elimination.…”

“…Moreover only a few studies have examined the chemical reactions occurring within the heterocluster ion itself. [8][9][10][11][12][13] In the present study, we have investigated the reaction of Ti + with C=O, C-C, and C-H bonds in acetone molecules within heterocluster ions. The main purpose of this work was to develop a quantitative interpretation of the reaction mechanism suggested by our observations.…”

Intramolecular Ion-Molecule Reactions within Ti⁺(CH₃COCH₃)_nHeteroclusters: Oxidation Pathway via C=O Bond Activation

“…8,11,12 The observation of peaks corresponding to TiO + indicated that the reaction was initiated by the insertion of Ti + into the C=O bond of an acetone molecule. We postulate that product formation proceeded through the reactions given below.…”

“…The experimental details of the ion-molecule reaction dynamics measurements have been described previously; [8][9][10] therefore, only a brief description is given here. Ti + ions were generated by focusing the third harmonic (355 nm) of a Nd:YAG laser onto a rotating titanium disk, with an illumination area of diameter ~0.5 mm.…”

“…36 It might be argued that sequential H elimination reactions via C-H bond insertions occurred in several CH 3 COCH 3 molecules within a heterocluster, which is the major reaction pathway in the reactions of Ti + with ethanol and dimethyl ether. 8,10 Unfortunately, the ions (Ti + (C3H4O)(CH3COCH3)n) (H eliminations from single acetone molecule) and (Ti + (C3H5O)2(CH3COCH3)n-1) (H eliminations from two acetone molecules) were difficult to distinguish because of their identical masses. However, the absence of Ti + (C3H5O)(CH3COCH3)n product ions in the mass spectrum of Figure 2 indicated that H2 elimination occurred in a single CH3COCH3 molecule only.…”

“…[6][7] During the last few years, we have studied the intracluster ion-molecule reactions of Ti + with various organic molecules (water, alcohols, and esters) with the goal of elucidating the reactivity of Ti + ions and the reaction pathways that lead to heterocluster complex formation. [8][9][10][11][12][13] In particular, the reaction pathways of intracluster ion-molecule reactions of Ti + with ether clusters ((CH3OR)n, R = CH3, n-C3H7, n-C4H9, t-C4H9) appeared to vary depending on the alkyl group in the ether molecule. 10 The major sequences of heterocluster ions with the formulas Ti + (OCH 3 ) m (OR) n (m = 1-3 and n = 0-2) were attributed to the insertion of Ti + ions into the C-O bonds of the ether molecules within the heteroclusters, followed by alkyl radical elimination.…”

“…Moreover only a few studies have examined the chemical reactions occurring within the heterocluster ion itself. [8][9][10][11][12][13] In the present study, we have investigated the reaction of Ti + with C=O, C-C, and C-H bonds in acetone molecules within heterocluster ions. The main purpose of this work was to develop a quantitative interpretation of the reaction mechanism suggested by our observations.…”

Intramolecular Ion-Molecule Reactions within Ti⁺(CH₃COCH₃)_nHeteroclusters: Oxidation Pathway via C=O Bond Activation

Reactions of Laser Ablated Metal Plasma with Molecular Alcohol Beams: Dependence of the Produced Cluster Ion Species on the Beam Condition

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