Reactions of Ti, Zr, and Hf Atoms with Hydrogen Sulfide: Argon Matrix Infrared Spectra and Theoretical Calculations

Wang, Qiang; Zhao, Jie; Wang, Xuefeng

doi:10.1021/jp5054106

Cited by 9 publications

(9 citation statements)

References 51 publications

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“…■ EXPERIMENTAL AND COMPUTATIONAL METHODS Laser-ablated group 14 atoms (Si, Ge, Sn, Pb) were reacted with H 2 S in excess argon during condensation at 4 K using a Sumitomo Heavy Industries RDK-205D cryocooler, and the methods were described previously. 15,16 New species that formed in solid matrix were identified and characterized from matrix isolation infrared spectra using H 2 S, H 2 34 S and D 2 S reagents. The Nd:YAG laser fundamental (Continuum Minilite II, 1064 nm, 15 Hz repetition rate with 5 ns pulse width) was focused (about 10 mJ/pulse) onto silicon, germanium, tin and lead targets (Alfa Aesar), which produced bright plumes from the target surfaces spreading uniformly to the 4 K CsI window.…”

Section: ■ Introdutionmentioning

confidence: 99%

Splitting of Hydrogen Sulfide by Group 14 Elements (Si, Ge, Sn, Pb) in Excess Argon at Cryogenic Temperatures

Liu

Wang

2018

J. Phys. Chem. A

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The water gas reaction C + HO → CO + H has been employed for centuries; however little is known for analogous reaction M + HS → MS + H (M = Si, Ge, Sn, Pb). In addition, this latter reaction is intriguing in its function of converting pollutant HS to clean energy source H. We report herein the reactions of laser-ablated Group 14 atom M (M = Si, Ge, Sn, Pb) with HS using matrix isolation infrared spectroscopy as well as the state-of-the-art quantum chemical calculations. Important reactive intermediates HMSH with high active H (protonic H and hydridic H) are identified. In addition, the reaction mechanisms are established for insertion reaction M + HS → HMSH, and photoinduced H elimination reactions of HMSH → MS+ H and HSiS → SiS+ H in low-temperature matrices.

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Section: ■ Introdutionmentioning

confidence: 99%

Splitting of Hydrogen Sulfide by Group 14 Elements (Si, Ge, Sn, Pb) in Excess Argon at Cryogenic Temperatures

Liu

Wang

2018

J. Phys. Chem. A

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“…■ EXPERIMENTAL AND COMPUTATIONAL METHODS Our experimental method has been described in detail previously. 37,38 Laser-ablated natural isotopic boron n B (Aldrich, 80.4% 11 B, 19.6% 10 B), enriched 10 B (Eagle Pitcher, 93.8% 10 B, 6.2% 11 B), or enriched 11 B (Eagle Pitcher, 97.5% 11 B, 2.5% 10 B) was co-deposited with silane in excess argon onto a 4 K CsI window, which was mounted onto cold tip closed-cycle helium refrigerator (Sumitomo Heavy Industrious, Model RDK408D) for 1 h at a rate of 2−4 mmol/h. Typically, 10−30 mJ/pulse laser power was used.…”

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confidence: 99%

Silicon Tetrahydroborate and Silylene Dihydroborate with Interelement B–H–Si and B═Si Bonds

Zhao

et al. 2016

Organometallics

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Reactions of laser-ablated boron atoms with SiH4 molecules gave silylene dihydroborate (H2BSiH2) in excess argon, which rearranged to silicon tetrahydroborate [Si(μ-H)2BH2] upon 300–350 nm irradiation. These reaction products were identified by functional group infrared frequencies, isotopic shifts, and comparison to infrared frequencies calculated by using density functional theory. It is found that H2BSiH2 has planar doublet ground state with electron-deficient B–Si double-bond character. Bonding analysis for Si(μ-H)2BH2 shows that 3c–2e B–H–Si bond is formed by accepting electrons donated from B–H σ bond.

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“…In experiments for the Hf reactions with SiH 4 in argon (Figure ), two bands at 1675.5, and 1654.0 cm –1 in the Hf–H stretching region show similar behaviors on deposition, annealing, and irradiations. These frequencies are near the Hf–H stretching frequencies at 1666.8 and 1640.2 cm –1 for SHfH 2 molecule in solid argon but higher than the same modes at 1614.2 and 1563.6 cm –1 for the CH 2 HfH 2 molecule and at 1637.8 and 1629.1 cm –1 for the isolated HfH 2 molecule in solid argon . A new molecule with the HfH 2 subunit comes into mind.…”

Section: Discussionmentioning

confidence: 82%

“…First, the observed bands at 1597.6 and 1577.9 cm –1 are appropriate for Zr–H stretching modes of a ZrH 2 subunit. Recall for the isolated ZrH 2 molecule in solid argon the weaker and stronger Zr–H symmetric and antisymmetric stretching modes are at 1557.8 and 1524.8 cm –1 , and two similar modes for the ZrH 2 subunit in the SZrH 2 molecules are at 1598.8 and 1569.7 cm –1 . The methane product CH 2 ZrH 2 in argon exhibits bands at 1581.0 and 1546.2 cm –1 for two Zr–H stretching modes .…”

Section: Discussionmentioning

confidence: 93%

Double and Triple Si–H–M Bridge Bonds: Matrix Infrared Spectra and Theoretical Calculations for Reaction Products of Silane with Ti, Zr, and Hf Atoms

Shi

Huang

et al. 2017

J. Phys. Chem. A

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Infrared spectra of matrix isolated dibridged Si(μ-H)MH and tribridged Si(μ-H)MH molecules (M = Zr and Hf) were observed following the laser-ablated metal atom reactions with SiH during condensation in excess argon and neon, but only the latter species was observed with titanium. Assignments of the major vibrational modes, which included terminal MH, MH and hydrogen bridge Si-H-M stretching modes, were confirmed by the appropriate SiD isotopic shifts and density functional vibrational frequency calculations (B3LYP and BPW91). The Si-H-M hydrogen bridge bond is calculated as weak covalent interaction and compared with the C-H···M agostic interaction in terms of electron localization function (ELF) analysis and noncovalent interaction index (NCI) calculations. Furthermore, the different products of Ti, Zr, and Hf reactions with SiH are discussed in detail.

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Reactions of Ti, Zr, and Hf Atoms with Hydrogen Sulfide: Argon Matrix Infrared Spectra and Theoretical Calculations

Cited by 9 publications

References 51 publications

Splitting of Hydrogen Sulfide by Group 14 Elements (Si, Ge, Sn, Pb) in Excess Argon at Cryogenic Temperatures

Splitting of Hydrogen Sulfide by Group 14 Elements (Si, Ge, Sn, Pb) in Excess Argon at Cryogenic Temperatures

Silicon Tetrahydroborate and Silylene Dihydroborate with Interelement B–H–Si and B═Si Bonds

Double and Triple Si–H–M Bridge Bonds: Matrix Infrared Spectra and Theoretical Calculations for Reaction Products of Silane with Ti, Zr, and Hf Atoms

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