![]() ![]() Editorial board of: The Scientific Pages of Agricultural Technologies Chromatography And Separation Techniques Journal International Journal of Environment and Bioenergy, The Scientific Pages of Surface Chemistry Awards and Honorsġ. Chromatography A, Current Analytical Chemistry, Green Chemistry ).Ħ. Bioscience and Bioengineering, Separation and Purification Technology, J. Transmission electron microscope techniques for materials characterization and biomedical diagnosisĨ.ěioinspired silicon-carbon and silica materialsĪBE 748 Bioseparation ABE 444/544 Unit Operation and Lab.ġ, A the leader of the NSF-MRI funded TEM facility “Acquisition of a Transmission Electron Microscope”ģ, Review Panels for funding agencies: Canada “Alberta Innovates Bio Solutions” (2016 Spring), USDA SBIR (2015 Fall) and NSF (CBET Biomass and Chemical Separation 2016 Spring).ĥ, Review activity for more than 20 journals including top journals (including Advanced Materials, Energy & Environmental Science, Nanoscale, RSC Advances, Bioresource Technology, J. Tailored materials for biomedical engineeringĦ.ěio-dust fire monitoring and preventionħ. Renewable graphene & advanced carbon materialsĢ.ěioseparation technology (biomedical engineering, biopharma and biorefinery)ģ. University of Illinois-Urbana Post-doc Microbiologyġ. Iowa State University (Ames IA) PhD Chemical Engineering Recently, I also started to integrate bioseparation techniques and graphene materials into a new biosensor platform, and explore next generation high selective and high conductive disposable probes of electrochemical biosensor devices.ĬV Biographical Sketch NSF Jan 2016.docx (30.32 KB) EducationĮast China Univ. In addition, we have developed multiple methods to control surface oxygen and hydrophobicity of carbon adsorbents for improving electrochemical energy storage properties, as well as enhancing adsorption selectivity for biofuel harvesting. Our subsequent work showed that a novel nitrogen doped 3D graphene, which demonstrated excellent electrochemical properties as electrode materials of supercapacitor, was synthesized from distiller’s dried grains with solubles (DDGS) with a facile low temperature catalytic graphenization process. Our recent biorenewable carbon materials work has led us to prepare multiple advanced carbon materials from different biomass as well as evaluated these carbon materials’ energy storage function in electrochemical supercapacitor and lithium ion batteries. Since 2010, my interest started to focus on biorenewable advanced carbon materials, electrochemical energy storage devices and functional adsorbents for biofuel separation in biorefinery. ![]() ![]() Since I joined ABE department at SDSU in Dec 2008, multiple disciplines background and experiences enable my research more flexible in current intensively competitive environment. In this short postdoc period, I solved multiple critical challenges in expression and purification of the new botulinum neurotoxin therapeutical delivery vehicle. In 2008 March, I moved back to academic for more research freedom and innovative, and joined Microbiology department at University of Illinois as a Postdoc. After completed my PhD study, I joined GE-Lifescience Fast Trak as lead applicant scientist, managed typical training courses about biopharmaceutical processing development, as well as lead customized biopharm downstream processes development service team in Shanghai. In 2004-2006, I developed the first three-dimensional protein (size, surface charge and hydrophobicity) characterization methods and applied this innovative method to a complex Corn extract protein. After 2001, my PhD research focused on bio-separation technology, especially recombinant protein purification. I started my research career as a MS student focusing on nanomaterial, carbon adsorbents and catalysts in 1997, when I was a major pioneer of photocatalysis technology in China. ![]()
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