Young Researcher CV

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Umair Gulzar, Sohaib Ali
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7 years ago
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Umair Gulzar's CV
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% Twenty Seconds Resume/CV
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\documentclass[letterpaper]{twentysecondcv} % a4paper for A4

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%	 PERSONAL INFORMATION
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\cvname{Umair Gulzar} % Your name
\cvjobtitle{Doctoral Fellow \\ Energy Storage Materials} % Job title/career

\skypeID{gumair86}
\cvnumberphone{+39 329 6032168} % Phone number
\cvsite{goo.gl/rwxaee} % Personal website
\cvmail{gulzar.umair@outlook.com} % Email address

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\begin{document}

\makeprofile % Print the sidebar

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%	 EDUCATION
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\section{Education}

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\begin{twenty} % Environment for a list with descriptions
	\twentyitem
    	{2015 - 2017 \\ (Expected)}
        {Ph.D. Nanotechnology}
        {\href{https://www.iit.it/}{\textbf{Italian Institute of Technology}}}
        {Genova, Italy}
        {Specialization: Energy Storage Materials 
        \\ \textit{Advisor: Remo Proietti Zaccaria}}
	\twentyitem
    	{2011 - 2013}
        {Erasmus Mundus Masters, Analytical Sciences}
        {\href{https://www.lincoln.ac.uk/home/}{\textbf{University of Lincoln}}}
        {Lincoln, United Kingdom}
        {Specialization: Magnetic Nanoparticles based sensors}
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\section{Research Experience}
\begin{twenty}
	\twentyitem
    	{2015 - 2017}
        {Ph.D. Research Fellow}
        {\href{https://www.iit.it/}{\textbf{Italian Institute of Technology}}}
        {}
        {
        {\begin{itemize}
        \item Worked on single wall carbon nanohorns based sulfur composite as a cathode material for lithium sulfur cell. Mechanistic studies were performed to understand the shuttle effect of polysulfides using impedance spectroscopy. 
        \item Single wall carbon nanohorns based Germanium nanocomposite (Ge@SWCNHs) as an anode active material for lithium ion battery. Studied the effect of SWCNHs on the electrochemical performance of lithium ion battery.
        \item Binder and carbon free porous germanium network as high capacity and ultra stable electrode for lithium ion battery.
        \item Facile Room temperature synthesis of tin (Sn) nanoparticles decorated on single wall carbon nanohorns as a cheap active material for lithium ion battery.
        \item Insight to the destruction mechanism of Tin (Sn) thin film electrode while sodiation/de-sodiation. Electrochemical and morphological study.
        
    \end{itemize}}
        }
\end{twenty}

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%	 EXPERIENCE
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\section{Conferences and Summer Schools}

\begin{twenty} % Environment for a list with descriptions
	\twentyitem
    	{May 2017}
        {EMRS, Spring Meeting}
        {\href{http://www.european-mrs.com/meetings/2017-spring-meeting}{\textbf{Strasbourg (France)}}}
        {}
        {
        {\begin{itemize}
        \item Presented a poster on Single Wall carbon Nanohorns based sulfur and tin composite as cathode and anode materials.
    \end{itemize}}
        }
        
    \twentyitem
   		{Sept 2017}
        {Joint European Summer School}
        {\href{http://www.jess-summerschool.eu/}{\textbf{Athens (Greece)}}}
        {}
        {
        {\begin{itemize}
        \item Comprehensive courses on the fundamentals of solid state ionics along with state of the art anodes, cathodes and solid state electrolytes.   
    \end{itemize}}
        }
        
     \twentyitem
   		{Sept 2016}
        {Jyvaskyla Summer School}
        {\href{https://www.jyu.fi/science/muut_yksikot/summerschool/en}{\textbf{Jyvaskyla (Finland)}}}
        {}
        {
        \begin{itemize}
        \item Fundamentals of electrochemistry and catalysis  
    \end{itemize}
    	}
        
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\section{Future Research Interests}
{
        {\begin{itemize}
        \item In-depth understanding of electrode processes (SEI formation) involved in existing and future generation electrode materials using state of the art characterization technique.
    \end{itemize}}
        }
\section{Publications}
{
        {\begin{itemize}
        \item For Submitted manuscripts go to the next page or \href{https://scholar.google.it/citations?hl=en&user=COCauOMAAAAJ&view_op=list_works&sortby=pubdate}{\textbf{Click here for Google scholar}}\\     
    \end{itemize}}
        }
\textbf{\textit{It is an interactive CV, Please print if necessary}}

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\begin{table}[h!]
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      & 
      \begin{itemize}[topsep=0pt]
      \item Next-generation textiles: From embedded supercapacitors to lithium ion batteries. \textbf{U Gulzar}, S Goriparti, E Miele, T Li, G Maidecchi, A Toma, F De Angelis, J. Mater. Chem. A, 2016, 4, 16771-16800. \href{http://pubs.rsc.org/en/content/articlelanding/2016/ta/c6ta06437j#!divAbstract}{\textbf{(link)}}
      \end{itemize} \\
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      \begin{itemize}[topsep=0pt]
      \item Facile Synthesis of Ge-MWCNTs Nanocomposite Electrodes for High Capacity Lithium Ion Batteries.S Goriparti, \textbf{U Gulzar}, E Miele, F Palazon, A Scarpellini, S Marras, S Monaco, R P Zaccaria and C Capiglia, J. Mater. Chem. A, 2017, 5, 19721-19728. \href{http://pubs.rsc.org/en/content/articlelanding/2017/ta/c7ta04971d#!divAbstract}{\textbf{(link)}}
      \end{itemize} \\
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      \begin{itemize}[topsep=0pt]
      \item Achieving Higher Capacities using a Carbon-Sulfur Composite for Lithium Sulfur Batteries. \textbf{U Gulzar}, T Li, X Bai, M Colombo, A Ansaldo, S Marras, M Prato, S Goriparti, C Capiglia*, R P Zaccaria, Advance Materials, Submitted
      \end{itemize} \\
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      \begin{itemize}[topsep=0pt]
      \item Insight into the Mode of Damage upon Sodiation/de-sodiation of Tin Thin Film: An Electrochemical and Morphological Study.\textbf{U Gulzar*}, T Li, X Bai, R P Zaccaria, and C Capiglia, In writing.
      \end{itemize} \\
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      \item Nanostructured anatase TiO2 anode with extraordinary sodium-ion storage performance by facile Al2O3 surface modification. T Lia, \textbf{U Gulzar}, X Bai, S Monaco, M Prato, S Marras, Z Dang, C Capiglia, R P Zaccaria, Nano Energy Submitted.
      \end{itemize}    
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      \caption{Publication List}
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% \textbf{1.} Next-generation textiles: From embedded supercapacitors to lithium ion batteries.\textbf{U Gulzar}, S Goriparti, E Miele, T Li, G Maidecchi, A Toma, F De Angelis, J. Mater. Chem. A, 2016, 4, 16771-16800. \href{http://pubs.rsc.org/en/content/articlelanding/2016/ta/c6ta06437j#!divAbstract}{\textbf{(link)}}\\\\
% \textbf{2.} Facile Synthesis of Ge-MWCNTs Nanocomposite Electrodes for High Capacity Lithium Ion Batteries.S Goriparti, \textbf{U Gulzar}, E Miele, F Palazon, A Scarpellini, S Marras, S Monaco, R P Zaccaria and C Capiglia, J. Mater. Chem. A, 2017, 5, 19721-19728. \href{http://pubs.rsc.org/en/content/articlelanding/2017/ta/c7ta04971d#!divAbstract}{\textbf{(link)}}\\\\ 
% \textbf{3.} Achieving Higher Capacities using a Carbon-Sulfur Composite for Lithium Sulfur Batteries. \textbf{U Gulzar}, T Li, X Bai, M Colombo, A Ansaldo, S Marras, M Prato, S Goriparti, C Capiglia*, R P Zaccaria, Advance Materials, Submitted,\\\\
% \textbf{4.} Insight into the Mode of Damage upon Sodiation/de-sodiation of Tin Thin Film: An Electrochemical and Morphological Study.\textbf{U Gulzar*}, T Li, X Bai, R P Zaccaria, and C Capiglia, Submitted.\\\\
% \textbf{5.} Nanostructured anatase TiO2 anode with extraordinary sodium-ion storage performance by facile Al2O3 surface modification. T Lia, \textbf{U Gulzar}, X Bai, S Monaco, M Prato, S Marras, Z Dang, C Capiglia, R P Zaccaria, Submitted.

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