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Somayeh AbbaspourSharif University of Technology | SHARIF · Department of Materials Science and Engineering
Somayeh Abbaspour
MSc. NanoMaterials Eng.
About
17
Publications
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Introduction
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Publications
Publications (17)
Nanotechnology has illustrated significant potentials in biomolecular-sensing applications; particularly its introduction to anti-doping detection is of great importance. Illicit recreational drugs, substances that can be potentially abused, and drugs with dosage limitations according to the prohibited lists announced by the World Antidoping Agency...
http://www.ije.ir/article_73230.html
https://iranjournals.nlai.ir/2259/article_545382.html
Arrayed Ti6Al4V nanotubes (TNT) coated with hydroxyapatite (HA) were synthesized via electrochemical anodization method. Paracetamol was loaded onto TNT-HA electrode. Effects of anodization, nanotube formation and hydroxyapatite deposition on sorption and rel...
Graphene was first discovered as a sheet structure mechanically exfoliated from a block of graphite, but in recent years researchers have extended their investigations into this two‐dimensional carbon nanostructure. Various applications of graphene‐based materials have included electronics, photonics, optoelectronics, sensors, and drug / gene deliv...
Effect of thinfilm precise thickness on performance of persovskites solar cells
(Out of 2017-2019 work/project/study)
Graphene, a wonder material, has made far-reaching developments in many different fields such as materials science, electronics, condensed physics, quantum physics, energy systems, etc. Since its discovery in 2004, extensive studies have been done for understanding its physical and chemical properties. Owing to its unique characteristics, it has ra...
There is a tremendous need for monitoring existence, concentrations or behaviour of biomarkers in disease diagnosis, environmentally harmful gases, and analytes in industrial processes. Most recently, the attempts have been focused on novel materials namely metal organic frameworks (MOF) and graphene based sensors. MOFs are coordination polymers wi...
One of the main challenges in today's world is for sure requirement of clean energy. Hydrogen as a propitious energy carrier can help with elimination of fossil fuel dependency. Creation of hydrogen by water splitting solar driven approaches is a very attractive way to achieve clean and renewable energy. Recently, there have been many researches de...
*Nanostructured materials such as nanotubes, nanowires, nanoparticles can be used as drug carrier systems for more efficient and targeted drug delivery in human body. A case in point is that these drug carriers can be designed in a way to exhibit controlled drug release. *Optical detection aided by nanomaterials has been studied recently and signif...
nanoFIS2016, 27-29 June 2016, Austria
Development of Ti and Ti alloys topography to improve their biological performance plays an important role for promoting their application in the medical field. Today, many studies are focused on improving Ti topography using nanotechnology...
"4th Nano Today Conference"
In this study, we report two drug delivery systems based on titanium nanostructures and polymer-inorganic network. Firstly, titanium nanotubes were fabricated by electrochemical method. Hydroxyapatite was then deposited on the nanotubular structure to form a coating layer. Effect of anodization, nanotube formation and h...
This review article aimed to investigate the possibility of loading drug on titanium nanotubular structures.
Accepted for : Fourth International Conference on Multifunctional, Hybrid and Nanomaterials (Hybrid Materials 2015) Sitges (near Barcelona), Spain | 9 - 13 March 2015
Questions
Questions (6)
When these materials get excited with light, electron and holes are generated but it is important for them to hang arround for a while before they recombine so that more photocurrent will be produced. I heard 1microsecond was achieved. Is there any other longer time reported?
I need to know about quantum hall effect in graphene!
I have read that one of the major challenges in solar cells applications is reducing Hysteresis.
First off, can anyone give an explanation of this phenomenon?
Secondly, how to face this challenge?
It seems to me that mostly researchers are not that much talking about this phenomenon in their articles! Am i right?
It seems it is an approach developed by Prof. DeSimone
Anyone knows more about this process and its applications please share your knowledge
Any summer program (research assistant position, internship and ...) available for a graduate level?
Please attach the links!
As it is studied, Vertically Aligned Carbon Nanotubes owe superhydrophobic character which can limit their applications ( for example in drug delivery and in the body). Anybody knows how to decrease this and make a hydrophilic materials out of it? Would you please explain the detailed experimental method? Anybody here has done this in the lab?
* Consider the substrate is titanium.