Elimination of HBr from CH3Br by Cu+ and Au+: A DFT study

“…Agreement between our calculated Au + –BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol. Likewise, our relative energetics for the rearrangement of IM4 to IM6 agree with those reported by Li et al within ±4 kJ/mol, and bond lengths agree within 0.08 Å . As noted above, Brown et al report bond strengths calculated by using coupled-cluster methods for AuBr + and AuI + , which agree well with those predicted by our calculations .…”

“…All structures (Figure ) associated with these reaction surfaces were determined by using the DFT techniques described above, and key bond lengths and angles have been included. Li et al used a similar level of theory to model the Au + /CH 3 Br system, including intermediates IM4 [Br–Au–CH 3 ] + and IM6 [Au–Br–CH 3 ] + shown in Figures and . Agreement between our calculated Au + –BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol.…”

“…For our purposes, it is also illustrative to include the energetics for the related processes arising from Au + ( 1 S) with CH 3 Br and CH 3 I (upper right asymptotes) since and 4. 20 Agreement between our calculated Au + −BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol. Likewise, our relative energetics for the rearrangement of IM4 to IM6 agree with those reported by Li et al within ±4 kJ/mol, and bond lengths agree within 0.08 Å.…”

“…More specifically, the charge state of the gold atoms occupying active sites has not been fully determined, although evidence of both cationic and anionic gold centers has been reported. ,− In certain cases, gold exhibits catalytically relevant activity in the gas phase as exemplified by the oxidation of CO by ionic gold oxide clusters. − Beyond these specific examples, gas phase studies can offer insights into intrinsic reaction parameters associated with individual catalytic steps by providing a glimpse into molecular processes without the complicating influence of a solvent. This is exemplified by numerous experimental and theoretical studies that have examined the ability of gas-phase gold cations to activate sigma bonds. − …”

Near-Thermal Reactions of Au⁺(¹S,³D) and AuX⁺ with CH₃X (X = Br, I): A Combined Experimental and Computational Analysis

“…Agreement between our calculated Au + –BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol. Likewise, our relative energetics for the rearrangement of IM4 to IM6 agree with those reported by Li et al within ±4 kJ/mol, and bond lengths agree within 0.08 Å . As noted above, Brown et al report bond strengths calculated by using coupled-cluster methods for AuBr + and AuI + , which agree well with those predicted by our calculations .…”

“…All structures (Figure ) associated with these reaction surfaces were determined by using the DFT techniques described above, and key bond lengths and angles have been included. Li et al used a similar level of theory to model the Au + /CH 3 Br system, including intermediates IM4 [Br–Au–CH 3 ] + and IM6 [Au–Br–CH 3 ] + shown in Figures and . Agreement between our calculated Au + –BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol.…”

“…For our purposes, it is also illustrative to include the energetics for the related processes arising from Au + ( 1 S) with CH 3 Br and CH 3 I (upper right asymptotes) since and 4. 20 Agreement between our calculated Au + −BrCH 3 binding energy of 213.4 kJ/mol and that reported in this earlier study is within 2 kJ/mol. Likewise, our relative energetics for the rearrangement of IM4 to IM6 agree with those reported by Li et al within ±4 kJ/mol, and bond lengths agree within 0.08 Å.…”

“…More specifically, the charge state of the gold atoms occupying active sites has not been fully determined, although evidence of both cationic and anionic gold centers has been reported. ,− In certain cases, gold exhibits catalytically relevant activity in the gas phase as exemplified by the oxidation of CO by ionic gold oxide clusters. − Beyond these specific examples, gas phase studies can offer insights into intrinsic reaction parameters associated with individual catalytic steps by providing a glimpse into molecular processes without the complicating influence of a solvent. This is exemplified by numerous experimental and theoretical studies that have examined the ability of gas-phase gold cations to activate sigma bonds. − …”

Near-Thermal Reactions of Au⁺(¹S,³D) and AuX⁺ with CH₃X (X = Br, I): A Combined Experimental and Computational Analysis

“…HAI JUN ZHU 1,2 , WEI XIAN CHENG 1 , YI LEI CHEN 1 , HUAI CAO 1 , XIAO GAUNG XIE 3 and TAO HONG LI 4,* Based on the theoretical results of this work and our previous study, comparisons can be made. D-alanine has two conformations like D-phenylalanine due to the C-C bond rotation: the C=O and -NH2 groups are in the same side or different sides of the C-C bond.…”

Theoretical Investigation of the Gas Phase Cu+-Activated Fragmentation of D-Alanine

A comparative theoretical study of the reactivities of the Al⁺ and Cu⁺ ions toward methylamine and dimethylamine