Sazan M. Haidary scite author profile

Porous silicon nanoparticles have been established as excellent candidates for medical applications as drug delivery devices, due to their excellent biocompatibility, biodegradability, and high surface area. The simple fabrication method by electrochemical anodization of silicon and its photoluminescent properties are some of the merits that have contributed to the increasing interest given to porous silicon. This paper presents the methods of fabrication, which can be customized to control the pore size, various chemical treatments used for the modification of silicon surfaces, and the characterization and pore morphology of silicon structures. Different approaches used for drug loading and the variety of coatings used for the controlled released are revised. The monitoring of the toxicity of silicon degradation products and the in vivo release of a drug in a specific site are described taking into account its significance on medical applications, specifically on cancer therapy.

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Effect of coatings and surface modification on porous silicon nanoparticles for delivery of the anticancer drug tamoxifen

Haidary

Mohammed

Córcoles

et al. 2016

Microelectronic Engineering

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Effect of dopant concentration on the pore formation of porous silicon on n-type silicon

Nadia

Ali

Ahmad

et al. 2014

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Folic Acid Delivery Device based on Porous Silicon Nanoparticles Synthesized by Electrochemical Etching

Haidary

Córcoles

Ali

2013

International Journal of Electrochemical Science

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Sazan M. Haidary

Nanoporous Silicon as Drug Delivery Systems for Cancer Therapies

Effect of coatings and surface modification on porous silicon nanoparticles for delivery of the anticancer drug tamoxifen

Effect of dopant concentration on the pore formation of porous silicon on n-type silicon

Folic Acid Delivery Device based on Porous Silicon Nanoparticles Synthesized by Electrochemical Etching

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