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1. Photoelectron Spectroscopy and Theoretical Study of Di-Copper–Boron Clusters: Cu 2 B 3 – and Cu 2 B 4 –

   https://doi.org/10.1021/acs.jpca.3c02417  

   Pozdeev, Anton S. ; Chen, Wei-Jia ; Choi, Hyun Wook ; Kulichenko, Maksim ; Yuan, Dao-Fu ; Boldyrev, Alexander I. ; Wang, Lai-Sheng ( June 2023 , The Journal of Physical Chemistry A)
2. Methane C–H Activation by [Cu 2 O] 2+ and [Cu 3 O 3 ] 2+ in Copper-Exchanged Zeolites: Computational Analysis of Redox Chemistry and X-ray Absorption Spectroscopy

   https://doi.org/10.1021/acs.inorgchem.0c03693  

   Suleiman, Olabisi ; Panthi, Dipak ; Adeyiga, Olajumoke ; Odoh, Samuel O. ( May 2021 , Inorganic Chemistry)

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3. DFT Analysis of Methane C−H Activation and Over‐Oxidation by [Cu 2 O] 2+ and [Cu 2 O 2 ] 2+ Sites in Zeolite Mordenite: Intra‐ versus Inter‐site Over‐Oxidation

   https://doi.org/10.1002/cphc.202100580  

   Panthi, Dipak ; Adeyiga, Olajumoke ; Odoh, Samuel O. ( October 2021 , ChemPhysChem)

   Methane over‐oxidation by copper‐exchanged zeolites prevents realization of high‐yield catalytic conversion. However, there has been little description of the mechanism for methane over‐oxidation at the copper active sites of these zeolites. Using density functional theory (DFT) computations, we reported that tricopper [Cu₃O₃]²⁺active sites can over‐oxidize methane. However, the role of [Cu₃O₃]²⁺sites in methane‐to‐methanol conversion remains under debate. Here, we examine methane over‐oxidation by dicopper [Cu₂O]²⁺and [Cu₂O₂]²⁺sites using DFT in zeolite mordenite (MOR). For [Cu₂O₂]²⁺, we considered the μ‐(η²:η²) peroxo‐, and bis(μ‐oxo) motifs. These sites were considered in the eight‐membered (8MR) ring of MOR. μ‐(η²:η²) peroxo sites are unstable relative to the bis(μ‐oxo) motif with a small interconversion barrier. Unlike [Cu₂O]²⁺which is active for methane C−H activation, [Cu₂O₂]²⁺has a very large methane C−H activation barrier in the 8MR. Stabilization of methanol and methyl at unreacted dicopper sites however leads to over‐oxidation via sequential hydrogen atom abstraction steps. For methanol, these are initiated by abstraction of the CH₃group, followed by OH and can proceed near 200 °C. Thus, for [Cu₂O]²⁺and [Cu₂O₂]²⁺species, over‐oxidation is an inter‐site process. We discuss the implications of these findings for methanol selectivity, especially in comparison to the intra‐site process for [Cu₃O₃]²⁺sites and the role of Brønsted acid sites.

    

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4. Metal binding and interdomain thermodynamics of mammalian metallothionein-3: enthalpically favoured Cu + supplants entropically favoured Zn 2+ to form Cu 4 + clusters under physiological conditions

   https://doi.org/10.1039/d2sc00676f  

   Mehlenbacher, Matthew R. ; Elsiesy, Rahma ; Lakha, Rabina ; Villones, Rhiza Lyne ; Orman, Marina ; Vizcarra, Christina L. ; Meloni, Gabriele ; Wilcox, Dean E. ; Austin, Rachel N. ( January 2022 , Chemical Science)

   Metallothioneins (MTs) are a ubiquitous class of small metal-binding proteins involved in metal homeostasis and detoxification. While known for their high affinity for d 10 metal ions, there is a surprising dearth of thermodynamic data on metals binding to MTs. In this study, Zn 2+ and Cu + binding to mammalian metallothionein-3 (MT-3) were quantified at pH 7.4 by isothermal titration calorimetry (ITC). Zn 2+ binding was measured by chelation titrations of Zn 7 MT-3, while Cu + binding was measured by Zn 2+ displacement from Zn 7 MT-3 with competition from glutathione (GSH). Titrations in multiple buffers enabled a detailed analysis that yielded condition-independent values for the association constant ( K ) and the change in enthalpy (Δ H ) and entropy (Δ S ) for these metal ions binding to MT-3. Zn 2+ was also chelated from the individual α and β domains of MT-3 to quantify the thermodynamics of inter-domain interactions in metal binding. Comparative titrations of Zn 7 MT-2 with Cu + revealed that both MT isoforms have similar Cu + affinities and binding thermodynamics, indicating that Δ H and Δ S are determined primarily by the conserved Cys residues. Inductively coupled plasma mass spectrometry (ICP-MS) analysis and low temperature luminescence measurements of Cu-replete samples showed that both proteins form two Cu 4 + –thiolate clusters when Cu + displaces Zn 2+ under physiological conditions. Comparison of the Zn 2+ and Cu + binding thermodynamics reveal that enthalpically-favoured Cu + , which forms Cu 4 + –thiolate clusters, displaces the entropically-favoured Zn 2+ . These results provide a detailed thermodynamic analysis of d 10 metal binding to these thiolate-rich proteins and quantitative support for, as well as molecular insight into, the role that MT-3 plays in the neuronal chemistry of copper. 

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5. Rapid Simultaneous Removal of Toxic Anions [HSeO 3 ] − , [SeO 3 ] 2– , and [SeO 4 ] 2– , and Metals Hg 2+ , Cu 2+ , and Cd 2+ by MoS 4 2– Intercalated Layered Double Hydroxide

   https://doi.org/10.1021/jacs.7b07123  

   Ma, Lijiao ; Islam, Saiful M. ; Xiao, Chengliang ; Zhao, Jing ; Liu, Hongyun ; Yuan, Mengwei ; Sun, Genban ; Li, Huifeng ; Ma, Shulan ; Kanatzidis, Mercouri G. ( September 2017 , Journal of the American Chemical Society)