Nanoemulsions: increasing possibilities in drug delivery

Sutradhar, Kumar Bishwajit; Amin, Md. Lutful

doi:10.1515/ejnm-2013-0001

Cited by 165 publications

(90 citation statements)

References 52 publications

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“…[13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] With respect to administration, especially to the human body,i deally such capsules should be fabricated based on ab iocompatibleb iodegradablep olymer consisting of an amphiphilic backbonet hat gives the possibility to bind equally efficiently to the hydrophobic core and cover it but also to have ah igh affinity to water. [13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] With respect to administration, especially to the human body,i deally such capsules should be fabricated based on ab iocompatibleb iodegradablep olymer consisting of an amphiphilic backbonet hat gives the possibility to bind equally efficiently to the hydrophobic core and cover it but also to have ah igh affinity to water.…”

Section: Resultsmentioning

confidence: 99%

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

et al. 2018

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A simple and facile strategy for the creation of ferric tannin microcapsules around a liquid, non-sacrificial core is described. The assembly of the capsules occurs rapidly once ferric tannin complexes are subjected to ultrasonic treatment. The driving forces for the rapid capsule assembly reside in the strategy of adding ferric ions into the initial emulsion, which promotes shell formation and stability through well-known complexation effects. This is the first time that microcapsule assemblies of monomeric tannins like epigallocatechin-3-O-gallate has been demonstrated, which are reportedly unable to form dispersing microcapsules in the absence of a templating metal. The efficacy of the approach is demonstrated by the complete release of a hydrophobic molecule that is active against M. tuberculosis by using Acacia tannin capsules. The release kinetics of the active molecule were of zeroth order over a 12 h time frame.

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Section: Resultsmentioning

confidence: 99%

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

et al. 2018

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“…Schematic illustration of the conversion of microparticles to nanoparticles in a high‐pressure homogenizer. Figure modified from …”

Section: Methodsmentioning

confidence: 99%

Synthesis of stabilized hydroxyapatite nanosuspensions for enamel caries remineralization

Shahmoradi

Rohanizadeh

Sonvico

et al. 2018

Australian Dental Journal

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“…An advantage is that they allow a greater control of particle size and composition, and thus of the stability, rheology, and turbidity of the emulsion. Examples of these techniques include high-pressure microfluidic homogenization, ultrasonic emulsification, flow focusing, and satellite droplets [96,[120][121][122][123][124]. Since the energy demand is by far the major disadvantage of the previous methods, a possible solution is to develop techniques based on different physical phenomena, which are less energy-demanding.…”

Section: Preparation Of Nanoemulsionsmentioning

confidence: 99%

Plenty of Room at the Bottom: Nanotechnology as Solution to an Old Issue in Enhanced Oil Recovery

2018

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During the past half-century, the prefix "nano" attached to several words, such as "technology", "motors", "device", and so on has denoted cutting-edge research fields and topics at the forefront of classical scientific disciplines. Possible application fields have been frequently evoked, even if real-life examples are still difficult to find. The present review analyzes how nanotechnology is utilized in enhanced oil recovery (EOR) processes so as to increase the efficiency of mature oilfields. Nanotechnology in EOR is classified into three categories: nanoparticles/nanofluids, nanoemulsions, and nanocatalysts. The advantages at the nanoscale are also described and discussed, including an overview of manufacturing methods as well as the concerns about their possible environmental impacts. Clearly, nanotechnology has the potential to boost EOR techniques, although there are still many questions and drawbacks to be tackled.

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Nanoemulsions: increasing possibilities in drug delivery

Cited by 165 publications

References 52 publications

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Synthesis of stabilized hydroxyapatite nanosuspensions for enamel caries remineralization

Plenty of Room at the Bottom: Nanotechnology as Solution to an Old Issue in Enhanced Oil Recovery

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Nanoemulsions: increasing possibilities in drug delivery

Cited by 165 publications

References 52 publications

Stimuli‐Responsive Tannin–FeIII Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–FeIII Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Synthesis of stabilized hydroxyapatite nanosuspensions for enamel caries remineralization

Plenty of Room at the Bottom: Nanotechnology as Solution to an Old Issue in Enhanced Oil Recovery

Contact Info

Product

Resources

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Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent