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Volume 8, Issue 6 (Suppl)

J Bioremediat Biodegrad, an open access journal

ISSN:2155-6199

Biopolymers & Bioplastics 2017

October 19-20, 2017

October 19-20, 2017 San Francisco, USA

7

th

International Conference and Exhibition on

Biopolymers and Bioplastics

Easing the environmental impact of disposable packaging: New sunlight-degradable bio-sourced polymer

materials

Recent advances in Green Materials Science should be of interest to the packaging industry, in the form of providing cost-

effective bio-sourced alternatives to artificial plastics. indeed, traditional disposable plastics have now become a global

environmental concern due to their overuse, non-degradability, and toxicity. Especially vulnerable are many fragile ecosystems

often specifically targeted by eco-tourism, such as high altitude, remote, and Arctic destinations, where there can also be

additional barriers to disposal of waste (Kumar et al., 2014). This presentation will highlight recent successes from various

Sustainable Materials Science and Engineering efforts towards providing low- or non-impact plastics alternatives (Daley,

2016). These encouraging examples are part of a larger network of local efforts, which could readily be implemented in

many environments, partnered with local Universities (Zhong, 2016). A general strategy to develop local production and

implementation partnerships will be discussed. Specifically at McGill University in Canada, as a working collaboration

between our School of Environment, Center for Green Chemistry, and Materials Engineering Facility, we are developing a

bio-inspired, sunlight-degradable plastics alternative (Borchers and Barrett, 2016). Constructed from completely bio-sourced

natural starting materials, these new ‘soft-bonded’ materials can be easily and cheaply fabricated locally, to replace many of the

current artificial plastics used for packaging, food transport, preparation, and consumption containers, vessels, and utensils.

Containing light-responsive ‘structural linking’ units, when exposed to sunlight after use they mechanically (not chemically)

degrade quickly and completely from the ‘inside out’, returning the polymer material starting components ‘reversibly’ back to

their initial non-toxic and water-soluble form, out of sight and environmental harm.

Biography

Christopher Barrett received his Ph.D. in Chemistry from Queen's University, Canada in 1997, working on photo-responsive polymers with the late Almeria Natan-

sohn, and Paul Rochon. Barrett then spent 2 years at MIT’s Department of Materials Science and Engineering as an NSERC Postdoctoral Fellow, '98-'99, working

on self-assembled polymers at bio-surfaces, before joining McGill University in 2000, where he is now Associate Professor of Chemistry, and McGill’s School of

Environment. He has been a JSPS Fellow at Tokyo Tech, a Fulbright Fellow at UCLA and Berkeley, and has published 100+ papers on light-responsive materials,

and bio-inspired polymers, composites, and naturally-sourced materials.

chris.barrett@mcgill.ca

Christopher J Barrett

McGill University, Canada

Christopher J Barrett, J Bioremediat Biodegrad 2017, 8:6 (Suppl)

DOI: 10.4172/2155-6199-C1-010