A Review of The Lesser-Studied Microemulsion-Based Synthesis Methodologies Used for Preparing Nanoparticle Systems of The Noble Metals, Os, Re, Ir and Rh

Shiri, Mohammad Soleimani Zohr; Henderson, William; Mucalo, Michael R.

doi:10.3390/ma12121896

Cited by 52 publications

(18 citation statements)

References 111 publications

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“…The literature on this topic has grown steadily during the last 20 years, producing many articles and reviews about size and shape control, synthesis mechanisms, etc. [ 106 , 107 , 108 , 109 , 110 , 111 , 112 , 113 , 114 , 115 ]. Some examples of the great variety of nanoparticles produced using µEs include metallic and bimetallic nanoparticles (Au, Ag, Pt, Pd, Cu, etc.…”

Section: Achievements and Challengesmentioning

confidence: 99%

Microemulsion Microstructure(s): A Tutorial Review

et al. 2020

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Microemulsions are thermodynamically stable, transparent, isotropic single-phase mixtures of two immiscible liquids stabilized by surfactants (and possibly other compounds). The assortment of very different microstructures behind such a univocal macroscopic definition is presented together with the experimental approaches to their determination. This tutorial review includes a necessary overview of the microemulsion phase behavior including the effect of temperature and salinity and of the features of living polymerlike micelles and living networks. Once these key learning points have been acquired, the different theoretical models proposed to rationalize the microemulsion microstructures are reviewed. The focus is on the use of these models as a rationale for the formulation of microemulsions with suitable features. Finally, current achievements and challenges of the use of microemulsions are reviewed.

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Section: Achievements and Challengesmentioning

confidence: 99%

Microemulsion Microstructure(s): A Tutorial Review

et al. 2020

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“…These amphiphilic molecules are generally fatty acids, salts of fatty acid (soaps), phospholipids, or other similar amphiphilic compounds [37]. Micelles present either a hydrophobic core, exposing outside the hydrophilic polar heads, or a hydrophilic core, exposing outside the hydrophobic tails (inverted micelles) ( Figure 2) [38]. They usually encapsulate hydrophobic drugs into the hydrophobic core, whereas hydrophilic drugs can be adsorbed or chemically linked to the outer shell [39].…”

Section: Micellesmentioning

confidence: 99%

“…Schematic representation of (A) normal micelles and (B) inverted micelles. Adapted from[38] (published by MDPI), licensed under CC BY.…”

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confidence: 99%

Nanocarriers as Magic Bullets in the Treatment of Leukemia

et al. 2020

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Leukemia is a type of hematopoietic stem/progenitor cell malignancy characterized by the accumulation of immature cells in the blood and bone marrow. Treatment strategies mainly rely on the administration of chemotherapeutic agents, which, unfortunately, are known for their high toxicity and side effects. The concept of targeted therapy as magic bullet was introduced by Paul Erlich about 100 years ago, to inspire new therapies able to tackle the disadvantages of chemotherapeutic agents. Currently, nanoparticles are considered viable options in the treatment of different types of cancer, including leukemia. The main advantages associated with the use of these nanocarriers summarized as follows: i) they may be designed to target leukemic cells selectively; ii) they invariably enhance bioavailability and blood circulation half-life; iii) their mode of action is expected to reduce side effects. FDA approval of many nanocarriers for treatment of relapsed or refractory leukemia and the desired results extend their application in clinics. In the present review, different types of nanocarriers, their capability in targeting leukemic cells, and the latest preclinical and clinical data are discussed.

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“…The microemulsion method implies the preparation of a microemulsion in an aqueous phase with ferric acid and/or ferrous ions, which will be precipitated through the injection of organic precipitating agents, such as cyclohexylamine or oleylamine [ 74 ]. While it offers the advantages of controllable size and shape, it also includes disadvantages related to aggregation and stability issues of the resulted MNPs [ 74 , 75 ].…”

Section: Magnetite Nanoparticles—synthesis Properties and Functimentioning

confidence: 99%

Magnetite Nanoparticles and Essential Oils Systems for Advanced Antibacterial Therapies

Mihai

Chircov

Grumezescu

et al. 2020

IJMS

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Essential oils (EOs) have attracted considerable interest in the past few years, with increasing evidence of their antibacterial, antiviral, antifungal, and insecticidal effects. However, as they are highly volatile, the administration of EOs to achieve the desired effects is challenging. Therefore, nanotechnology-based strategies for developing nanoscaled carriers for their efficient delivery might offer potential solutions. Owing to their biocompatibility, biodegradability, low toxicity, ability to target a tissue specifically, and primary structures that allow for the attachment of various therapeutics, magnetite nanoparticles (MNPs) are an example of such nanocarriers that could be used for the efficient delivery of EOs for antimicrobial therapies. The aim of this paper is to provide an overview of the use of EOs as antibacterial agents when coupled with magnetite nanoparticles (NPs), emphasizing the synthesis, properties and functionalization of such NPs to enhance their efficiency. In this manner, systems comprising EOs and MNPs could offer potential solutions that could overcome the challenges associated with biofilm formation on prosthetic devices and antibiotic-resistant bacteria by ensuring a controlled and sustained release of the antibacterial agents.

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A Review of The Lesser-Studied Microemulsion-Based Synthesis Methodologies Used for Preparing Nanoparticle Systems of The Noble Metals, Os, Re, Ir and Rh

Cited by 52 publications

References 111 publications

Microemulsion Microstructure(s): A Tutorial Review

Microemulsion Microstructure(s): A Tutorial Review

Nanocarriers as Magic Bullets in the Treatment of Leukemia

Magnetite Nanoparticles and Essential Oils Systems for Advanced Antibacterial Therapies

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