Add to ORKGABSTRACT: An approach for the preparation of an oxidized porous silicon microparticle drug delivery system that can provide efficient trapping and sustained release of various drugs is reported. The method uses the contraction of porous silicon’s mesopores, which occurs during oxidation of the silicon matrix, to increase the loading and retention of drugs within the particles. First, a porous Si (pSi) film is prepared by electrochemical etching of p-type silicon with a resistivity of>0.65 Ω cm in a 1:1 (v/v) HF/ethanol electrolyte solution. Under these conditions, the pore walls are sufficiently thin to allow for complete oxidation of the silicon skeleton under mild conditions. The pSi film is then soaked in an aqueous solution containin...
Nanostructured porous silicon (nPSi) is a nanostructured biomaterial which has received considerable...
Oxidation is the most commonly used method of passivating porous silicon (PSi) surfaces against unwa...
Targeted and controlled delivery of therapeutic agents on demand is pivotal in realising the efficac...
An approach for the preparation of an oxidized porous silicon microparticle drug delivery system tha...
This thesis describes the fabrication, chemical modification, drug release, and toxicity studies of ...
Great interest has been given these last few years to the use of porous silicon particles for drug d...
The sustained delivery of therapeutics with minimal systemic side effects would be a benefit in the ...
By leveraging its structural, chemical and photonic properties, porous silicon materials were employ...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
Porous silicon nanoparticles have been established as excellent candidates for medical applications ...
Oxidation is the most commonly used method of passivating porous silicon (PSi) surfaces against unwa...
Porous silicon micro-particles (micro-pSi) with size in the range of 1–10 mm are obtained by etching...
There has been a growing interest in the nanomedicine community to develop multi-stage drug delivery...
Porous silicon has been investigated as a novel material for biomedical applications since the early...
This thesis describes the fabrication, chemical modification, toxicity studies, and drug loading of ...
Nanostructured porous silicon (nPSi) is a nanostructured biomaterial which has received considerable...
Oxidation is the most commonly used method of passivating porous silicon (PSi) surfaces against unwa...
Targeted and controlled delivery of therapeutic agents on demand is pivotal in realising the efficac...
An approach for the preparation of an oxidized porous silicon microparticle drug delivery system tha...
This thesis describes the fabrication, chemical modification, drug release, and toxicity studies of ...
Great interest has been given these last few years to the use of porous silicon particles for drug d...
The sustained delivery of therapeutics with minimal systemic side effects would be a benefit in the ...
By leveraging its structural, chemical and photonic properties, porous silicon materials were employ...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
Porous silicon nanoparticles have been established as excellent candidates for medical applications ...
Oxidation is the most commonly used method of passivating porous silicon (PSi) surfaces against unwa...
Porous silicon micro-particles (micro-pSi) with size in the range of 1–10 mm are obtained by etching...
There has been a growing interest in the nanomedicine community to develop multi-stage drug delivery...
Porous silicon has been investigated as a novel material for biomedical applications since the early...
This thesis describes the fabrication, chemical modification, toxicity studies, and drug loading of ...
Nanostructured porous silicon (nPSi) is a nanostructured biomaterial which has received considerable...
Oxidation is the most commonly used method of passivating porous silicon (PSi) surfaces against unwa...
Targeted and controlled delivery of therapeutic agents on demand is pivotal in realising the efficac...