Electrospun Magnetic Polymer Nanocomposite fibers



Sustainable Utilization of Polymer Nanocomposites Toward Environmental Remediation By John Zhanhu GuoThe disposal of large amount of plastics wastes has caused environmental concerns in the last few decades. Various alternative methods have been attempted to solve these problems, such as land-?lling, incineration and bio- and photo-degradation. However, all these approaches have their inherent drawbacks. For example, land?ll has environmental risks due to the chemical inertness of the plastics. Incineration is not widely used primarily because of the concerns about the toxic gaseous products and ashes, which only shifts a solid waste issue to an air pollution problem. Recycling polymer wastes has been of great interest in terms of environment concerns and economic feasibility during the last decade. Compared to the thermal pyrolysis, the catalytic pyrolysis is preferred to improve the yield of valuable products, lower the reaction temperature and increase the yield of gasoline (C5–C12) or alter the composition of the oil product. The current challenge of the liquid fuel is to avoid the unsaturated components, which can be easily oxidized and thus reduce the caloric value of the liquid fuel. In addition, these oxidized structures may become acidic species which cause the corrosion of engines and generate pollutants in the air. Acid and base promoted microporous iron catalysts and even enzyme (candida antarctica lipase) were used in recycling different polymers to improve the product yield and selectivity. However, catalyst deactivation by poisoning, fouling, thermal degradation and attrition is of a great concern in the catalytic processes due to the huge cost for catalyst replacement and process shutdown. A more stable catalyst is thus needed.On the other side, rapid industrialization has led to an increased discharged wastewater containing heavy metals, which have detrimental effects on the environment and human beings. The new stringent EPA requirements have disabled current technologies if no advanced strategy is adopted. Among the current deployed technologies, adsorption is favorable and feasible because of its low cost and high efficiency. Though activated carbon is one of the adsorbents to purify polluted water, it still failed to reduce the concentration of contaminants at ppb levels. Novel adsorbents are needed to remove heavy metals satisfying the stringent EPA requirements.In this talk, carbon nanocomposites from the polymer recycling, volatile collection and the solid product for environmental remediation will be presented. Our recent advance in utilizing the polymer nanocomposites for environmental remediation will also be addressed.Short BiographyDr. Guo, currently an Assistant Professor in Dan F. Smith Department of Chemical Engineering at Lamar University, obtained a Chemical Engineering Ph.D. degree from Louisiana State University (2005) and received three-year (2005-2008) postdoctoral training in Mechanical and Aerospace Engineering Department in University of California Los Angeles. Dr. Guo directs the Integrated Composites Laboratory and has authored more than 100 peer-reviewed journal papers and five patents. His current research focuses on multifunctional light-weight nanocomposites especially with polymer and carbon as the hosting matrix. ................
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