Esmaeil Nourmohammadi scite author profile

Esmaeil Nourmohammadi

3Publications

8Citation Statements Received

45Citation Statements Given

How they've been cited

How they cite others

140

Affiliations

Mashhad University of Medical Sciences

Publications

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A Review on Application of Novel Solid Nanostructures in Drug Delivery

Faraji

Nourmohammadi

Malaekeh-Nikouei

et al. 2018

JNanoR

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Nanotechnology as a multidisciplinary and scientific innovation plays an important role in numerous biomedical applications, such as molecular imaging, biomarkers and biosensors and also drug delivery. A wide range of studies have been conducted on using of nanoparticles for early diagnosis and targeted drug therapy of various diseases. In fact, the small size, customized surface, upgraded solubility, or multi-functionality of nanoparticles enabled them to interact with complex cellular functions in new ways which opened many doors and created new biomedical applications. These studies demonstrated that nanotechnology vehicles can formulate biological products effectively, and this nano-formulated products with a potent ability against different diseases, were represented to have better biocompatibility, bioaccessibility and efficacy, under in vitro and in vivo conditions.

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Absorption and Biodegradation of Toluene in a Two-Phase Low-Pressure Bioscrubber Using Cutting Oil as the Organic Phase

et al. 2018

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Background: Volatile organic compounds are a major source of air pollution affecting human health and the environment. Different methods are used to remove these pollutants from air streams including conventional and biological methods. Objectives: In this study, the absorption and biodegradation of toluene were examined in a semi-industrial bioscrubber in order to enhance the absorption rate of toluene in the aqueous phase. Methods: The effect of cutting oil was examined as the organic phase. Mass transfer was measured for water only, as well as for three concentrations of cutting oil in water. The growth of microorganisms in the presence of different concentrations of cutting oil was investigated. The microbial consortium was obtained from a wastewater treatment plant in order to inoculate the bioscrubber. First, the ability of the microbial consortium was tested for the degradation of toluene in a bottle. Results: The results showed 98% of toluene in the bottle was degraded by the microbial consortium. In addition, the use of cutting oil significantly decreased kla (from 3.8 to 0.37). Concerning bioscrubber performance, the use of cutting oil as the organic phase increased the efficiency and elimination capacity from 22.5 to 55 and from 34 to 69, respectively, in the case of oil in water. The elimination rate of toluene increased as 32.5% by adding the cutting oil.

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Biodegradation of toluene in a two-phase low-pressure bioscrubber with using silicon oil as organic phase

Nourmohammadi

Karimi

Golbabaei

et al. 2021

International Journal of Environmental Analytical Chemistry

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