Lewis Acid Guests in a {P<sub>8</sub>W<sub>48</sub>} Archetypal Polyoxotungstate Host: Enhanced Proton Conductivity via Metal‐Oxo Cluster within Cluster Assemblies

Yang, Peng; Alsufyani, Maryam; Emwas, Abdul‐Hamid; Chen, Chaoqin; Khashab, Niveen M.

doi:10.1002/ange.201806086

Cited by 24 publications

(17 citation statements)

References 77 publications

(42 reference statements)

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“…The electrochromic properties are available in K 6 P 2 W 18 O 62 when it is combined with TiO 2 nanowires, resulting in excellent switching and transmittance properties . Polyoxotungstates have been employed in a number of energy conversion and storage applications and sensors …”

Section: Polyoxotungstatementioning

confidence: 99%

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Zhang

Chen

2020

Int J Energy Res

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Summary Polyoxometalates could be viewed as the molecular counterpart of the metal oxides, which are essential ingredients for various energy conversion and storage applications. In this manuscript, we review the progress of engineering functional polyoxometalates toward energy applications, focusing on, but not limited to, polyoxotitanate, polyoxotungstate, and polyoxomolybdate. These polyoxometalates are considered to be promising candidates for dye‐sensitized solar cell, perovskite solar cell, lithium‐ion battery, lithium‐sulfur battery, supercapacitor, and water‐splitting system. We believe advanced energy devices with better performance could be derived from further engineering the polyoxometalates owing to their molecular design flexibility.

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Section: Polyoxotungstatementioning

confidence: 99%

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Zhang

Chen

2020

Int J Energy Res

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“…Such identification is not possible with the 1D approach. For example, various homo-nuclear 2D 1 H-1 H-NMR experiments, including total correlation spectroscopy (TOCSY) [225][226][227][228][229][230][231][232][233][234], correlation spectroscopy (COSY) [219,[234][235][236][237][238][239][240][241], and heteronuclear experiments such as 1 H, 13 C-single quantum coherence ( 1 H-13 C-HSQC) and heteronuclear multiple bond correlation (HMBC) have been routinely used in to assign protein signals and to study protein interactions with ligands in drugs and small molecules [242]. Here, we present heteronuclear single-quantum coherence spectroscopy (HSQC) as an example of the most powerful approaches used to assign signals and to probe ligand protein interactions [243].…”

Section: Two-dimensional Nmr Spectroscopymentioning

confidence: 99%

Using NMR spectroscopy to investigate the role played by copper in prion diseases

et al. 2020

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Prion diseases are a group of rare neurodegenerative disorders that develop as a result of the conformational conversion of normal prion protein (PrP C) to the disease-associated isoform (PrP Sc). The mechanism that actually causes disease remains unclear. However, the mechanism underlying the conformational transformation of prion protein is partially understood-in particular, there is strong evidence that copper ions play a significant functional role in prion proteins and in their conformational conversion. Various models of the interaction of copper ions with prion proteins have been proposed for the Cu (II)-binding, cell-surface glycoprotein known as prion protein (PrP). Changes in the concentration of copper ions in the brain have been associated with prion diseases and there is strong evidence that copper plays a significant functional role in the conformational conversion of PrP. Nevertheless, because copper ions have been shown to have both a positive and negative effect on prion disease onset, the role played by Cu (II) ions in these diseases remains a topic of debate. Because of the unique properties of paramagnetic Cu (II) ions in the magnetic field, their interactions with PrP can be tracked even at single atom resolution using nuclear magnetic resonance (NMR) spectroscopy. Various NMR approaches have been utilized to study the kinetic, thermodynamic, and structural properties of Cu (II)-PrP interactions. Here, we highlight the different models of copper interactions with PrP with particular focus on studies that use NMR spectroscopy to investigate the role played by copper ions in prion diseases.

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“…have rendered new POTs a prime target in new materials design. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18] Due to the interesting magnetic and electronic properties of transition metals (TMs), one of the most extensive studies in new POTs design is the introduction of TMs or TM-oxo clusters into POTs for creating TM-incorporated POTs. After decades of effort, a library of TM-incorporated POTs has been synthesized and constitutes the largest subclass of POTs.…”

Section: Introductionmentioning

confidence: 99%

Multicomponent Cooperative Assembly of Nanoscale Boron-Rich Polyoxotungstates with 22 and 30 Boron Atoms

Chen

Guo

et al. 2022

CCS Chem

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This work demonstrates that the introduction of positive lanthanide (Ln) and transition metal (TM) cations into polyoxotungstates (POTs) to stabilize negative oxoboron clusters is a feasible and general synthetic strategy for creating not only rare boron-rich POTs but also intriguing multicomponent composite polyoxometalates (POMs). By this strategy, a large family of unprecedented boron-rich POTs with 22 and 30 boron atoms, such as [(B 18 Si 3 Ln 6 O 36 (OH) 14 ){B 4 Ni 4 O 10 (OH) 4 (A-α-SiW 9 O 34 )} 3 ] 44− (1Ln), [(B 19 Si 2 Ln 7 O 35 (OH) 15 (H 2 O)){B 4 Ni 4 O 10 (OH) 4 (A-α-SiW 9 O 34 )} 2 {B 3 Ni 4 O 9 (OH) 3 (A-α-SiW 9 -O 34 )}] 41− (2Ln), where Ln is Gd, Tb, and Dy, and [(B 22 O 42 ) {LnNi 3 (OH) 3 (B-α-SiW 9 O 34 )} 4 ] 34− (3Ln; Ln is Sm, Gd, and Tb), have been obtained. These POTs incorporate the largest number of boron atoms and the highest-nuclearity oxoboron clusters of any molecular POTs reported to date. The results show the fusion of two distinct research areas of POT chemistry and oxoboron cluster chemistry. In addition, they also show a family of unique POMs made from multiple oxo clusters including W-O, B-O, TM-O, and Ln-O. Experiments indicate these novel composite materials can exhibit effective catalytic activity for oxidizing toxic 2-chloroethyl ethyl sulfide.

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Lewis Acid Guests in a {P₈W₄₈} Archetypal Polyoxotungstate Host: Enhanced Proton Conductivity via Metal‐Oxo Cluster within Cluster Assemblies

Cited by 24 publications

References 77 publications

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Using NMR spectroscopy to investigate the role played by copper in prion diseases

Multicomponent Cooperative Assembly of Nanoscale Boron-Rich Polyoxotungstates with 22 and 30 Boron Atoms

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Lewis Acid Guests in a {P8W48} Archetypal Polyoxotungstate Host: Enhanced Proton Conductivity via Metal‐Oxo Cluster within Cluster Assemblies

Cited by 24 publications

References 77 publications

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Polyoxometalates: Tailoring metal oxides in molecular dimension toward energy applications

Using NMR spectroscopy to investigate the role played by copper in prion diseases

Multicomponent Cooperative Assembly of Nanoscale Boron-Rich Polyoxotungstates with 22 and 30 Boron Atoms

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Product

Resources

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Lewis Acid Guests in a {P₈W₄₈} Archetypal Polyoxotungstate Host: Enhanced Proton Conductivity via Metal‐Oxo Cluster within Cluster Assemblies