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E u r o s c i c o n C o n f e r e n c e o n

Physical Chemistry and

Analytical Separation Techniques

October 08-09 , 2018

Amsterdam, Nether l ands

Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

Physical Chemistry and Analytical Separation Techniques 2018

I

n this work we evaluated the characteristics of a new material made of lignin

in different molecular weights (high, medium and low molecular weight)

in the development of films made of lignin incorporating essential oils and

extracts functional previously analyzed, peppermint (

Mentha piperita

), oregano

(

Oreganum vulgare L

.) garlic (

Allium Sativum

) and cinnamon (

Cinnamomun

zeylanicum

) as antimicrobial agents. Our main goal is to limit the production

of hydrocarbon based polymers in our country to decrease the burning of

these and take advantage of the agroforestry waste as the main source of raw

material for extraction of lignin: water hyacinth, wheat, maize, walnut shells,

coconut fiber and wood (

sawdust

) of Alamo where it was demonstrated that

these have a 20% to 45% lignin that resource where in the future we create

in order to remove any residue both forestry and industrial. The antimicrobial

activity of the essential oils and extracts functional was evaluated through

the determination of the minimum inhibitory concentration and minimum

bactericidal concentrations (CMB) against: Escherichia coli O157:H7 (ATCC

43888),

Salmonella typhimurium

(ATCC 14028)

, Staphylococcus aureus

(ATCC

25923), the essential oils and extracts functional based on the results of

microbiological, were incorporated in a polymer matrix of lignin to different

molecular weights, and the antimicrobial activity of the films was evaluated by

the diffusion technique in Mueller-Hinton agar and blood agar. The molecular

weights were characterized by infrared through different processes of removal

of lignin thus obtaining various types of lignin however themethodology being a

bit orthodox organosolv processes of drag in fractions and retention of oxidant

gases. It is a material with such characteristics that has a high temperature

degradation that was determined by a term ogavimetrico TGA analysis , with

antimicrobial and antifungal agent that slows down this growth

Biography

Luis EduardoGonzalez is currently a student at the Autonomous

University of Chihuahua. He has been working on different

research projects within the scope of developing innovative

projects based in the environment and its improvement. In

this research, he has studied the effect of the land within

molecular arrays that help inhibit a very large proportion of

microorganisms, as well as polymer matrices.

Luis.cimav@gmail.com

Development of bio-based polymers based on agroforestry

waste extractions of lignins cured and reinforced with

antimicrobial agents delaying fungal and bacterial activity

by increasing the period of life of a food on the shelf

Luis Eduardo Gonzalez, Juan P Palomares and Eduardo V

Gomez

The Autonomous University of Chihuahua (UACH), Mexico

Luis Eduardo Gonzalez et al., J Org Inorg Chem 2018 Volume: 4

DOI: 10.21767/2472-1123-C6-017