Elaine A. Qian scite author profile

This Viewpoint Article describes major advances pertaining to perfunctionalized boron clusters in synthesis and their respective applications. The first portion of this work highlights key synthetic methods allowing one to access a wide range of polyhedral boranes (B4 and B6 – B12 cluster cores) that contain exhaustively functionalized vertices. The second portion of this Viewpoint showcases the historical developments in using these molecules for applications ranging from materials science to medicine. Lastly, we suggest potential new directions for these clusters as they apply to both synthetic methods and applications.

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Rapid synthesis of redox-active dodecaborane B₁₂(OR)₁₂clusters under ambient conditions

Wixtrom

Shao

Jung

et al. 2016

Inorg. Chem. Front.

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We have developed a fast and efficient route to obtain perfunctionalized ether-linked alkyl and benzyl derivatives of the closo-[B12(OH)12]2− icosahedral dodecaborate cluster via microwave-assisted synthesis. These icosahedral boron clusters exhibit three-dimensional delocalization of the cage-bonding electrons, tunable photophysical properties, and a high degree of stability in air in both solid and solution states. A series of closo-[B12(OR)12]2−, hypocloso-[B12(OR)12]1− and hypercloso-[B12(OR)12]0 clusters have been prepared with reaction times ranging from hours to several minutes. This method is superior to previously reported protocols since it dramatically decreases the reaction times required and eliminates the need for inert atmosphere conditions. The generality of the new microwave-based method has been further demonstrated through the synthesis of several new derivatives, which feature redox potentials up to 0.6 V more positive than previously known B12(OR)12 cluster compounds. We further show how this method can be applied to a one-pot synthesis of hybrid, vertex-differentiated species B12(OR)11(OR) that was formerly accessible only via multi-step reaction sequence.

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Atomically precise organomimetic cluster nanomolecules assembled via perfluoroaryl-thiol SNAr chemistry

et al. 2016

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The majority of biomolecules are intrinsically atomically precise, an important characteristic that enables rational engineering of their recognition and binding properties. However, imparting similar precision to hybrid nanoparticles has been challenging due to inherent limitations of the existing chemical methods and availability of properly designed functional building blocks. Here we report a new approach to form atomically precise and highly tunable hybrid nanomolecules with well-defined three-dimensionality. Perfunctionalization of atomically precise clusters with pentafluoroaryl-terminated linkers produces size-tunable rigid cluster nanomolecules. These species are amenable to facile modification with a variety of thiol-containing molecules and macromolecules. Assembly proceeds at room temperature within hours under mild conditions, and the resulting nanomolecules exhibit high stabilities due to their full covalency. We further demonstrate how these nanomolecules grafted with saccharides can exhibit dramatically improved binding affinity toward a protein. Ultimately, the developed strategy allows the rapid generation of precise molecular assemblies for investigating multivalent interactions.

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An Organometallic Strategy for Assembling Atomically Precise Hybrid Nanomaterials

et al. 2019

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For decades, chemists have strived to mimic the intricate design and diverse functions of naturally occurring systems through the bioinspired synthesis of programmable inorganic nanomaterials. The development of thiol-capped gold nanoparticles (AuNPs) has driven advancement in this area; however, although versatile and readily accessible, hybrid AuNPs are rarely atomically precise, which limits control over their surface topology and therefore the study of complex structure-function relationships. Here, we present a bottom-up approach to the systematic assembly of atomically precise hybrid nanoclusters employing a strategy that mimics the synthetic ease with which thiol-capped AuNPs are normally constructed, while producing welldefined covalent nanoscale assemblies with diverse surface topologies. For the first time, using a structurally characterized cluster-based organometallic building block, we demonstrate the

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The impact of anti-apoptotic gene Bcl-2∆ expression on CHO central metabolism

Templeton

Lewis

Dorai

et al. 2014

Metabolic Engineering

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Tuning the electrochemical potential of perfunctionalized dodecaborate clusters through vertex differentiation

et al. 2018

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We report a new class of redox-active vertex-differentiated dodecaborate clusters featuring pentafluoroaryl groups. These [B12(OR)11NO2] clusters share several unique photophysical properties with their [B12(OR)12] analogues, while exhibiting significantly higher (+0.5 V) redox potentials. This work describes the synthesis, characterization, and isolation of [B12(O-CH2C6F5)11NO2] clusters in all 3 oxidation states (dianion, radical, and neutral). Reactivity to post-functionalization with thiol species via SNAr on the pentafluoroaryl groups is also demonstrated.

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Perfunctionalized Dodecaborate Clusters as Stable Metal-Free Active Materials for Charge Storage

Barton

Wixtrom

Kowalski

et al. 2019

ACS Appl. Energy Mater.

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We report a class of perfunctionalized dodecabo-rate clusters that exhibit high stability towards high concentration electrochemical cycling. These boron clusters afford several degrees of freedom in material design to tailor properties including solubility and redox potential. The exceptional stability of these clusters was demonstrated using a symmetric flow cell setup for electrochemical cycling between two oxidation states for 45 days, with post-run analysis showing negligible decomposition of the active species (<0.1%). To further probe the limits of this system, a prototype redox flow battery with two different cluster materials was used to determine mutual compatibility. This work effectively illustrates the potential of bespoke boron clusters as robust material platform for electrochemical energy conversion and storage.

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Tuning the Electrochemical Potential of Perfunctionalized Dodecaborate Clusters Through Vertex Differentiation

Wixtrom

Parvez

Savage

et al. 2018

Preprint

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We report a new class of redox-‐active vertex-‐differentiated dodecaborate clusters featuring pentafluoroaryl groups. These [B12(OR)11NO2] clusters share several unique photophysical properties with their [B12(OR)12] analogues, while exhibiting significantly higher (+0.5 V) redox potentials. This work describes the synthesis, characterization, and isolation of [B12(O-‐CH2C6F5)11NO2] clusters in all 3 oxidation states (dianion, radical, and neutral). Reactivity to post-‐functionalization with thiol species via SNAr on the pentafluoroaryl groups is also demonstated.

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Elaine A. Qian

Synthesis and Applications of Perfunctionalized Boron Clusters

Rapid synthesis of redox-active dodecaborane B₁₂(OR)₁₂clusters under ambient conditions

Atomically precise organomimetic cluster nanomolecules assembled via perfluoroaryl-thiol SNAr chemistry

An Organometallic Strategy for Assembling Atomically Precise Hybrid Nanomaterials

The impact of anti-apoptotic gene Bcl-2∆ expression on CHO central metabolism

Tuning the electrochemical potential of perfunctionalized dodecaborate clusters through vertex differentiation

Perfunctionalized Dodecaborate Clusters as Stable Metal-Free Active Materials for Charge Storage

Tuning the Electrochemical Potential of Perfunctionalized Dodecaborate Clusters Through Vertex Differentiation

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About

Elaine A. Qian

Synthesis and Applications of Perfunctionalized Boron Clusters

Rapid synthesis of redox-active dodecaborane B12(OR)12clusters under ambient conditions

Atomically precise organomimetic cluster nanomolecules assembled via perfluoroaryl-thiol SNAr chemistry

An Organometallic Strategy for Assembling Atomically Precise Hybrid Nanomaterials

The impact of anti-apoptotic gene Bcl-2∆ expression on CHO central metabolism

Tuning the electrochemical potential of perfunctionalized dodecaborate clusters through vertex differentiation

Perfunctionalized Dodecaborate Clusters as Stable Metal-Free Active Materials for Charge Storage

Tuning the Electrochemical Potential of Perfunctionalized Dodecaborate Clusters Through Vertex Differentiation

Contact Info

Product

Resources

About

Rapid synthesis of redox-active dodecaborane B₁₂(OR)₁₂clusters under ambient conditions