Mass Spectrometry Congress 2019

Journal of Chemical Technology and Applications | Volume 3

Page 33

May 20-21, 2019 | Rome, Italy

MASS SPECTROMETRY,

PROTEOMICS AND POLYMER CHEMISTRY

3

rd

International Conference on

OF EXCELLENCE

IN INTERNATIONAL

MEETINGS

alliedacademies.com

YEARS

RECENT PROGRESS IN MORPHOLOGY

CONTROL OF POLYMERIC HYBRID

NANOPARTICLES VIA ONE POT SYNTHESIS

T

ypical techniques for the synthesis of polymeric hybrid core–shell

nanoparticles (such as silica/polymer hybrid nanoparticles) most-

ly consist based on a two-step process. These processes comprise the

preparation of core and shell via separate steps. The main disadvantag-

es of such a process are time consumption, low energy efficiency and

relatively non-uniform distribution of organic component, which result

in low inorganic loading. However, in recent years author developed

one-pot synthesis for different type of polymer hybrid nanoparticles. The

main aim in one–pot process is to carry out the sol-gel reaction of in-

organic precursor simultaneously with free radical polymerization of or-

ganic monomer. Indeed, in the one-pot method can be introduced as a

useful novel reinforcement technique which in the both phases of hybrid

particles is generated simultaneously either by forming single individual

hybrid particles or beside polymer particles. Recently they have report-

ed fabrication of tunable morphology of nano-size silica-acrylic hybrid

particles. Then they have studied production of hybrid materials with

well-defined morphology control. Finally, in a most recent work they are

investigating potential application of hybrid nanoparticles with different

morphology; all these lead to control final properties like mechanical

properties via morphology control. They investigated morphology con-

trol for alumina/polacrylate hybrid nanoparticles dealing with various

properties such as mechanical and optical properties. It was revealed

that mechanical, antibacterial and optical properties depend strongly to

the morphology of hybrid nanoparticles. They are going towards facile

and rapid production of controlled morphology hybrid nanoparticles

with well-known properties for a defined application.

G A Farzi, J Chem Tech App 2019, Volume 3

G A Farzi is a Professor of Polymer Engineering

at Faculty of Engineering in Hakim Sabzevari

University, Iran, where he is teaching Polymer En-

gineering and Polymer Composite Materials for

students in PhD and Master of Science level. He

obtained his PhD from University of Lyon (INSA

DE LYON), France in 2007, and then he finalized

a Post-Doctoral Fellowship in University of Lyon.

He moved to Iran where he becomes an Assis-

tant Professor at University of Tehran, however

soon he moved to his hometown Sabzevar and

started teaching and research in closed collab-

oration with French universities. His area of re-

search iInterests mainly in Synthesis of polymer

via miniemulsion polymerization; encapsula-

tion of organic and inorganic nanoparticles via

miniemulsion polymerization technique; devel-

opment of new technique for the synthesis of

hybrid nanoparticles; property study and appli-

cation of polymer hybrid nanomaterials.

alifarzi@yahoo.com

G A Farzi

Hakim Sabzevari University, Iran

BIOGRAPHY