Xuefeng Wang scite author profile

The reactions of laser-ablated B atoms with acetonitrile in 4 K solid neon have been investigated by matrixisolation infrared spectra, and new products have been identified by 10 B, D, and 13 C isotopic substitutions and quantum chemical calculations. The side-on complex B-η 2 -(NC)-CH 3 was observed during deposition and isomerized to NCBCH 3 , CNBCH 3 , and CNB(H)�CH 2 , respectively, through C−C bond breakage and hydrogen transfer. For diboron reaction with acetonitrile, the Nend-on complex BBNCCH 3 was formed on deposition, which rearranged to HBNC(B)�CH 2 and HBNBC�CH 2 by λ > 220 nm irradiation. In this reaction pathway, the C�N triple bond was completely cleaved. The final diboron product HBNBC�CH 2 was much more stable than the precursors by 152.0 kcal mol −1 at the CCSD(T)-Full/cc-pVTZ//B3LYP/aug-cc-pVTZ level of theory.

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F2BMF (M = B and Al) Molecules: A Matrix Infrared Spectra and Theoretical Calculations Investigation

Cheng

Cai

et al. 2023

Molecules

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Reactions of laser-ablated B and Al atoms with BF3 have been explored in the 4 K excess neon through the matrix isolation infrared spectrum, isotopic substitutions and quantum chemical calculations. The inserted complexes F2BMF (M = B, Al) were identified by anti-symmetric and symmetric stretching modes of F-B-F, and the F-11B-F stretch modes are at 1336.9 and 1202.4 cm−1 for F211B11BF and at 1281.5 and 1180.8 cm−1 for F211BAlF. The CASSCF analysis, EDA-NOCV calculation and the theory of atoms-in-molecules (AIM) are applied to investigate the bonding characters of F2BBF and F2BAlF molecules. The bonding difference between boron and aluminum complexes reveals interesting chemistries, and the FB species stabilization by a main group atom was first observed in this article.

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Complex with Linear B–B–B Skeleton Trapped in Dinitrogen Matrix: Matrix Infrared Spectra and Quantum Chemical Calculations

et al. 2023

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The neutral (NN)–B–B–B–(N2) complex has been trapped in low-temperature dinitrogen matrix and identified by isotopic substitution and theoretical frequency calculations. The linear B–B–B skeleton is stabilized by two inequivalent N2, namely, one end-on and other side-on N2. The structure of linear B–B–B skeleton illustrates much difference from previously reported triangle configuration of B3 clusters. Frontier orbital analysis demonstrates that the σ orbital of end-on NN and the π-bonding orbital of side-on N2 acts as the donor orbital. π bonding character across B–B–B skeleton donates to the antibonding π* orbital of end-on NN and out of phase the B–B–B features π back-donation to antibonding π* orbital of side-on N2. The combination of strong σ-donating capacity coupled with a greater ability for accepting π-back-donation of the N2 ligand leads to the formation of (NN)–B–B–B–(N2) complex with linear B–B–B skeleton. In addition, complexes of (NN)B(NN), (NN)BB(NN), and (NN)B4(NN) have been identified in our experiments.

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Significant π bonding in coinage metal complexes OCTMCCO− from infrared photodissociation spectroscopy and theoretical calculations

Zhou

Liu

Jin

et al. 2022

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A series of coinage metal complexes in the form of TMC(CO)n- (TM=Cu, Ag, Au; n = 0-3) were generated using a laser ablation-supersonic expansion ion source in the gas phase. Mass-selected infrared photodissociation spectroscopy in conjunction with quantum chemical calculations indicated that the TMC(CO)3- complexes contain a linear OCTMCCO- core anion. Bonding analyses suggest that the linear OCTMCCO- anions are better described as the bonding interactions between a singlet ground state TM+ metal cation and the OC/CCO2- ligands in the singlet ground state. Besides the strong ligands to metal σ donation bonding components, the π-bonding components also contribute significantly to the metal-ligands bonding due to the synergetic effects of the CO and CCO2- ligands. The strengths of the bonding of the three metals show a V-shaped trend in which the second-row transition metal Ag exhibits the weakest interactions whereas the third-row transition metal Au has the strongest interactions due to the relativistic effects.

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Activation of H₂S by Atomic Cr, Mn, and Fe: Matrix Infrared Spectra and Quantum Chemical Calculations

Zhao

Wang

2022

ACS Omega

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Hydrogen sulfide is toxic and corrosive gas abundantly available in nature. The activation of hydrogen sulfide to produce hydrogen and elemental sulfur is of great significance for possible applications in toxic pollutant control and hydrogen energy regeneration. The activation of H 2 S by transition metal atoms (M = Cr, Mn, and Fe) has been studied by low-temperature matrix isolation infrared spectroscopy and quantum chemical calculations. Experimental and theoretical results indicate that the reaction between ground-state M atoms and H 2 S is inhibited by the repulsive interactions between the reactants. After being excited upon photolysis, the corresponding excited-state M atoms react with H 2 S molecules spontaneously. The produced insertion product HMSH further decomposed to metal sulfides upon full-arc mercury lamp irradiation by the splitting of hydrogen.

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Xuefeng Wang

Boron-Mediated C–C and C≡N Bond Cleavage of Acetonitrile: Matrix Infrared Spectra and Theoretical Calculations

F2BMF (M = B and Al) Molecules: A Matrix Infrared Spectra and Theoretical Calculations Investigation

Complex with Linear B–B–B Skeleton Trapped in Dinitrogen Matrix: Matrix Infrared Spectra and Quantum Chemical Calculations

Significant π bonding in coinage metal complexes OCTMCCO− from infrared photodissociation spectroscopy and theoretical calculations

Activation of H₂S by Atomic Cr, Mn, and Fe: Matrix Infrared Spectra and Quantum Chemical Calculations

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Xuefeng Wang

Boron-Mediated C–C and C≡N Bond Cleavage of Acetonitrile: Matrix Infrared Spectra and Theoretical Calculations

F2BMF (M = B and Al) Molecules: A Matrix Infrared Spectra and Theoretical Calculations Investigation

Complex with Linear B–B–B Skeleton Trapped in Dinitrogen Matrix: Matrix Infrared Spectra and Quantum Chemical Calculations

Significant π bonding in coinage metal complexes OCTMCCO− from infrared photodissociation spectroscopy and theoretical calculations

Activation of H2S by Atomic Cr, Mn, and Fe: Matrix Infrared Spectra and Quantum Chemical Calculations

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Activation of H₂S by Atomic Cr, Mn, and Fe: Matrix Infrared Spectra and Quantum Chemical Calculations