Ab initio spectroscopy and thermochemistry of the platinum hydride ions, PtH+ and PtH

Rovibrational levels of low-lying electronic states of the gas-phase, diatomic molecules, PtH+ and PtH−, are computed on potential-energy functions obtained by using a hybrid spin–orbit configuration-interaction procedure. PtH− has a well-separated Σ 0 + + 1 ground state, while the first two electro...

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Veröffentlicht in:	The Journal of chemical physics 2024-05, Vol.160 (18)
1. Verfasser:	Irikura, Karl K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Computation Diatomic molecules Electron affinity Electron states Energy levels Photodetachment Photodissociation Photoelectrons Rotational spectra Spectroscopy Temperature dependence Thermochemistry
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description	Rovibrational levels of low-lying electronic states of the gas-phase, diatomic molecules, PtH+ and PtH−, are computed on potential-energy functions obtained by using a hybrid spin–orbit configuration-interaction procedure. PtH− has a well-separated Σ 0 + + 1 ground state, while the first two electronic states of PtH+ ( Σ 0 + + 1 and 3Δ3) are nearly degenerate. Combining the experimental photoelectron (PE) spectra of PtH− with theoretical photodetachment spectroscopy leads to an improved value for the electron affinity of PtH, EA(PtH) = (1.617 ± 0.015) eV. When PtH− is a product of photodissociation of PtHCO2−, its PE spectrum is broad because of rotational excitation. Temperature-dependent thermodynamic functions and thermochemistry of dissociation are computed from the theoretical energy levels. Previously published energetic quantities for PtH+ and PtH− are revised. The ground 1Σ+ term of PtH+ is not well described using single-reference theory.
doi_str_mv	10.1063/5.0207505
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PtH− has a well-separated Σ 0 + + 1 ground state, while the first two electronic states of PtH+ ( Σ 0 + + 1 and 3Δ3) are nearly degenerate. Combining the experimental photoelectron (PE) spectra of PtH− with theoretical photodetachment spectroscopy leads to an improved value for the electron affinity of PtH, EA(PtH) = (1.617 ± 0.015) eV. When PtH− is a product of photodissociation of PtHCO2−, its PE spectrum is broad because of rotational excitation. Temperature-dependent thermodynamic functions and thermochemistry of dissociation are computed from the theoretical energy levels. Previously published energetic quantities for PtH+ and PtH− are revised. The ground 1Σ+ term of PtH+ is not well described using single-reference theory.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><pmid>38738614</pmid><doi>10.1063/5.0207505</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0001-7515-6761</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Computation Diatomic molecules Electron affinity Electron states Energy levels Photodetachment Photodissociation Photoelectrons Rotational spectra Spectroscopy Temperature dependence Thermochemistry
title	Ab initio spectroscopy and thermochemistry of the platinum hydride ions, PtH+ and PtH
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