Ovadia Lev scite author profile

This review is devoted to the most recent developments (2000)(2001)(2002)(2003)(2004)(2005) of sol-gel materials at the interface with biology. In the context of bioencapsulation in mineral hosts, novel synthetic approaches have been designed, allowing the immobilization of numerous proteins, enzymes and immune molecules as well as poly-saccharides, phospholipids and nucleic acids. These efforts have led to the development of new biosensors and bioreactors. A similar trend was also observed for whole cell encapsulation, survival periods over several weeks now being achieved. This has opened the possibility of designing hybrid hosts for cell-based biosensing and bioproduction, ultimately allowing the development of artificial organs. Indeed, applications of sol-gel processes are not restricted to bioencapsulation, as demonstrated by recent progress in drug release systems and bioactive materials. Finally, the considerable efforts devoted to the biomimetic elaboration of mineral structures suggest that they might be the key for future development of improved sol-gel materials for bio-applications.

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Enzymes and Other Proteins Entrapped in Sol-Gel Materials

Avnir¹,

Braun²,

Lev³

et al. 1994

Chem. Mater.

836

493

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High-capacity antimony sulphide nanoparticle-decorated graphene composite as anode for sodium-ion batteries

Prikhodchenko

Mason³

et al. 2013

Nat Commun

507

349

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Sodium-ion batteries are an alternative to lithium-ion batteries for large-scale applications. However, low capacity and poor rate capability of existing anodes are the main bottlenecks to future developments. Here we report a uniform coating of antimony sulphide (stibnite) on graphene, fabricated by a solution-based synthesis technique, as the anode material for sodium-ion batteries. It gives a high capacity of 730 mAh g À 1 at 50 mA g À 1 , an excellent rate capability up to 6C and a good cycle performance. The promising performance is attributed to fast sodium ion diffusion from the small nanoparticles, and good electrical transport from the intimate contact between the active material and graphene, which also provides a template for anchoring the nanoparticles. We also demonstrate a battery with the stibnite-graphene composite that is free from sodium metal, having energy density up to 80 Wh kg À 1 . The energy density could exceed that of some lithium-ion batteries with further optimization.

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Sol−Gel Materials in Electrochemistry

et al. 1997

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The subject of sol-gel electrochemistry is introduced, starting with a brief account of milestones in its evolution. Then, the types of sol-gel materials that are useful for electrochemistry are presented, followed by a description of recent advances in the various fields of sol-gel electrochemistry. Modified electrodes, solid electrolytes, electrochromic devices, and corrosion protection coatings are described. Emerging fields such as RuO 2 supercapacitors and electrochemical synthesis of sol-gel precursors are also addressed.

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Ovadia Lev

Scanning electrochemical microscopy. Introduction and principles

Recent bio-applications of sol–gel materials

Enzymes and Other Proteins Entrapped in Sol-Gel Materials

High-capacity antimony sulphide nanoparticle-decorated graphene composite as anode for sodium-ion batteries

Sol−Gel Materials in Electrochemistry

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