Volume 7

Journal of Material Sciences & Engineering

Biopolymers Summit 2018

June 04-06, 2018

Page 12

conference

series

.com

June 04-06, 2018 Osaka, Japan

7

th

World Congress on

Biopolymers and Polymer Chemistry

Biopolymer derived nanofibers and their applications as biomedical materials and adsorbents for heavy

metals removal from polluted water

S

olution blowing of such plant derived biomaterials as soy protein, zein, lignin, oats, sodium alginate and cellulose acetate

and such animal derived biomaterials as silk protein (sericin), chitosan and bovine serum albumin was demonstrated as a

versatile, robust and industrially scalable approach to form monolithic and core-shell nanofibers from bio-waste. Mechanical

properties of such nanofiber mats were investigated. The collected nanofiber mats were also bonded both chemically (using

aldehydes and ionic cross-linkers) and physically (by means of wet and thermal treatment) to increase the tensile strength

to widen the range of applications of such green nonwovens. Fluorescent dye Rhodamine B was used as a model hydrophilic

drug in controlled release experiments after it had been encapsulated in solution-blown soy protein-containing hydrophilic

nanofibers and the release kinetics associated with dye desorption was studied in detail. Also, the antibacterial activity of

solution-blown soy protein nanofiber mats decorated with silver nanoparticles was studied. Nanofiber membranes containing

such biopolymers as lignin, oats, soy protein, sodium alginate and chitosan were used for heavy metals adsorption from aqueous

solutions in equilibrium in the batch experiments, as well as under the throughflow conditions. The results revealed attractive

capabilities of these inexpensive nano-textured biopolymer adsorbents formed from waste materials using the process scalable

to the industrial level. The results also elucidated the physicochemical mechanisms of heavy metal adsorption on biopolymers.

Biography

Alexander L Yarin has pursued his MSc in Applied Physics, PhD in Physics and Mathematics and Doctor of Science Habilitation in Physics and Mathematics from

The Institute for Problems in Mechanics of the Academy of Sciences of the USSR, Moscow. He has been a Professor at The Technion-Israel Institute of Technology

and currently is a Distinguished Professor at The University of Illinois, USA. He is the author of 4 books, 12 book chapters, 310 research papers and 6 patents.

He was the Fellow of the Rashi Foundation, The Israel Academy of Sciences and Humanities and was awarded Gutwirth Award, Hershel Rich Prize and Prize for

Technological Development for Defense against Terror of the American-Technion Society. He is one of the three Co-Editors of Springer Handbook of “

Experimental

Fluid Mechanics

” and the Associate Editor of the journal

Experiments in Fluids

.

ayarin@uic.edu

Alexander L Yarin

University of Illinois, USA

Alexander L Yarin, J Material Sci Eng 2018, Volume 7

DOI: 10.4172/2169-0022-C7-109