Jeremy W. Mares scite author profile

Silicon materials remain unused for supercapacitors due to extreme reactivity of silicon with electrolytes. However, doped silicon materials boast a low mass density, excellent conductivity, a controllably etched nanoporous structure, and combined earth abundance and technological presence appealing to diverse energy storage frameworks. Here, we demonstrate a universal route to transform porous silicon (P-Si) into stable electrodes for electrochemical devices through growth of an ultra-thin, conformal graphene coating on the P-Si surface. This graphene coating simultaneously passivates surface charge traps and provides an ideal electrode-electrolyte electrochemical interface. This leads to 10–40X improvement in energy density, and a 2X wider electrochemical window compared to identically-structured unpassivated P-Si. This work demonstrates a technique generalizable to mesoporous and nanoporous materials that decouples the engineering of electrode structure and electrochemical surface stability to engineer performance in electrochemical environments. Specifically, we demonstrate P-Si as a promising new platform for grid-scale and integrated electrochemical energy storage.

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Porous Silicon and Polymer Nanocomposites for Delivery of Peptide Nucleic Acids as Anti‐MicroRNA Therapies

Beavers

Werfel

Shen

et al. 2016

Advanced Materials

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Self-assembled polymer/porous silicon nanocomposites overcome intracellular and systemic barriers for in vivo application of peptide nucleic acid (PNA) anti-microRNA therapeutics. Porous silicon (PSi) is leveraged as a biodegradable scaffold with high drug cargo loading capacity. Functionalization with a diblock polymer improves PSi nanoparticle colloidal stability, in vivo pharmacokinetics, and intracellular bioavailability through endosomal escape, enabling PNA to inhibit miR-122 in vivo.

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Bandgap engineering of sol-gel synthesized amorphous Zn1−xMgxO films

Wei¹,

Boutwell²,

Mares³

et al. 2011

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Amorphous Zn1−xMgxO (α-Zn1−xMgxO) ternary alloy thin films across the full compositional range were synthesized by a low-cost sol-gel method on quartz substrates. The amorphous property of the α-Zn1−xMgxO films was verified by x-ray diffraction, and atomic force microscopy revealed a smooth surface with sub-nanometer root-mean square roughness. The current phase segregation issue limiting application of crystalline Zn1−xMgxO with 38% < x < 75% was completely eliminated by growing amorphous films. Optical transmission measurements showed high transmissivity of more than 90% in the visible and near infrared regions, with optical bandgap tunability from 3.3 eV to more than 6.5 eV by varying the Mg content.

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Thermal stability of CdZnO∕ZnO multi-quantum-wells

Thompson

Boutwell

Mares

et al. 2007

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The thermal stability of CdZnO / ZnO multi-quantum-well ͑MQW͒ structures was studied using rapid thermal annealing in nitrogen from 300 to 750°C. Photoluminescence ͑PL͒ emission from the MQWs was studied while varying the annealing temperature and time. For 15 min annealings, the PL center wavelength showed a 7 nm reduction for temperatures up to 650°C. Above 650°C, the wavelength changed rapidly, with a 50 nm reduction at 750°C. Annealing at 700°C for up to 20 min produced a systematic reduction in PL wavelength up to 39 nm. The data suggest that CdZnO / ZnO MQWs are relatively stable for nitrogen annealing below 650°C for times up to 15 min.

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Deep-ultraviolet photodetectors from epitaxially grown NixMg1−xO

Mares¹,

Boutwell²,

Wei³

et al. 2010

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Articles you may be interested inThe effect of oxygen flow rate and radio frequency plasma power on cubic ZnMgO ultraviolet sensors grown by plasma-enhanced molecular beam epitaxy Appl. Phys. Lett. 103, 031114 (2013); 10.1063/1.4815995 Molecular beam epitaxy-grown wurtzite MgS thin films for solar-blind ultra-violet detection Appl. Phys. Lett. 102, 171104 (2013); 10.1063/1.4803000 Realization of Mg ( x = 0.15 ) Zn ( 1 − x = 0.85 ) O -based metal-semiconductor-metal UV detector on quartz and sapphire

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Jeremy W. Mares

Surface engineered porous silicon for stable, high performance electrochemical supercapacitors

Porous Silicon and Polymer Nanocomposites for Delivery of Peptide Nucleic Acids as Anti‐MicroRNA Therapies

Bandgap engineering of sol-gel synthesized amorphous Zn1−xMgxO films

Thermal stability of CdZnO∕ZnO multi-quantum-wells

Deep-ultraviolet photodetectors from epitaxially grown NixMg1−xO

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