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Centre for Microbial Chemical Biology | LinkedIn

Andrew Burch joins the group from the Biochemistry, Molecular, Cellular and Developmental Biology graduate group.

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CSCB means Centre for Synthesis & Chemical Biology

Chemical Biology and Biological Chemistry research in the UK is frequently highlighted as world-leading and generates high quality research outputs including publications and platform technologies that underpin the life and medical sciences - vital components of the UK economy (Evidence source 1,2,3,4). There has been considerable growth of the chemical biology community in the UK as a result of a number of funding and networking initiatives as well as the movement of researchers from other academic fields such as synthetic organic chemistry (Evidence source 1,2).

Megan, Diana, Lisa and Jordon's  is published online in ACS Chemical Biology!

Research in Chemical Biology and Biological Chemistry provides the knowledge and tools that underpin a spectrum of new developments in the fields of healthcare and pharmaceuticals, including probes, theranostics (the integration of therapeutics and diagnostics), imaging technologies, sensors and solutions for synthetic biology and building blocks for new biomaterials. This research area is also of fundamental importance to the pharmaceutical industry in developing new means of tackling global health challenges such as antimicrobial resistance.

Centre for Microbial Chemical Biology McMaster Facility

International Center for Chemical Biological Sciences Jobs – Dawn Jobs ads 30 October 2016

The UK has a strong research base in Chemical Biology and Biological Chemistry. However, in recent years the centre of gravity has shifted increasingly into the biological and medical space. Research outputs from the Life Sciences Interface and other initiatives have been taken forward leaving a gap that has not been filled by new chemical biology and biological chemistry research. As a result will aim to grow this research area as a proportion of the portfolio. We will work with the community to ensure that vital enabling research capability is grown by encouraging new physical sciences innovation in Chemical Biology and Biological Chemistry to safeguard the long term health of this research area in the UK. Without this, we risk losing our world leading position and generating a bottleneck in important tools and fundamental understanding. The health of this area also has long-term implications for application-led research fields for which Chemical Biology and Biological Chemistry is critically relevant (for example, healthcare technologies, synthetic biology, life and medical sciences) as recognised by the priority.

Development of novel chemical tools and technologies for the understanding of biology and the synthesis of biological and biologically active molecules. It also covers biomimetic chemistry, synthetic methods that mimic biochemical processes; including producing simplified chemical models of complex biological systems.

CSCB - Centre for Synthesis and Chemical Biology …

15/01/2018 · Learn about working at Centre for Microbial Chemical Biology

Xiaoxi Huang was born in China. He received a B.S. degree in pharmaceutical science (2011) from the Peking University Health Science Center. He is now a Ph.D candidate in the Department of Chemistry and Chemical Biology, Rutgers University, under the supervision of Prof. Tewodros (Teddy) Asefa. His current research interests include the design and synthesis of novel multifunctional nanomaterials for biomedical and catalysis applications.

Tewodros (Teddy) Asefa is currently a professor in the Department of Chemistry and Chemical Biology and the Department of Chemical and Biochemical Engineering at Rutgers University in New Brunswick, NJ. He is also a member of the Rutgers Institute for Materials, Devices, and Nanotechnology (IAMDN) and the Rutgers Energy Institute (REI). In December 2009, he helped to put together the Rutgers Catalysis Research Center (RCRC). His group at Rutgers is involved in the development of synthetic methods of a wide array of functional and core/shell nanomaterials and the investigation of their potential applications in catalysis, electrocatalysis, targeted delivery of drugs to specific cells, nanocytotoxicity, solar cells, and environmental remediation. He is a recipient of the National Science Foundation (NSF) CAREER Award (2007–2012), the NSF Special Creativity Award in 2011, the Rutgers Board of Governors Research Fellowship in 2012, and multiple federal and local research grants. He was named the National Science Foundation American Competitiveness Fellow (NSF ACIF) in 2010 and also serves as a panelist for several federal and international agencies. He has recently coedited a book on nanocatalysis (Wiley) and has written over 120 peer-reviewed scientific papers and several book chapters over the past decade.

How is Centre for Synthesis and Chemical Biology (Dublin, Ireland) abbreviated
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  • Indian Institute of Chemical Technology - CSIR-IICT

    , download pdf, Chemical Biology: From Small Molecules to Systems Biology and Drug Design, Volume 1-3

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    CSCB stands for Centre for Synthesis and Chemical Biology (Dublin, Ireland)

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Consiga Chemical synthesis aqui

Radek Zboril received his Ph.D. degree at the Palacky University, Olomouc. After his Ph.D. studies, he took positions at the Universities of Tokyo, Delaware, and Johannesburg. Currently, he is a professor in the Department of Physical Chemistry and a general director of the Regional Centre of Advanced Technologies and Materials at Palacky University, Olomouc. His research interests are centered on nanomaterials, including iron- and iron oxide-based NPs, silver NPs, carbon nanostructures, and magnetic NPs, and encompass their synthesis, physicochemical characterization, and applications in catalysis, water treatment, antimicrobial treatment, medicine, and biotechnology. He has published more than 250 scientific papers, including 10 review papers in American Chemical Society (ACS) journals (e.g., , , ).

Chemical Biology — University of Leicester

François-Xavier Felpin was born in Villefranche-sur-Saône, France, in 1977. He received his Ph.D degree in 2003 from the University of Nantes under the supervision of Professor Jacques Lebreton working on the synthesis of alkaloids. After receiving his Ph.D., he was engaged in a postdoctoral position with Professor Robert S. Coleman at The Ohio State University working on the synthesis of mitomycin. In 2004, he joined the University of Bordeaux as an assistant professor and received his habilitation in 2009. In the fall of 2011, he moved to the University of Nantes, where he was promoted to full professor. Prof. Felpin is a junior member of the Institut Universitaire de France, and he recently received the 2014 Young Researcher Award from the French Chemical Society. His research interests include heterogeneous and homogeneous sustainable catalysis, new technologies, and material chemistry.

Chemical Biology | The University of Manchester | …

The applications of copper (Cu) and Cu-based nanoparticles, which are based on the earth-abundant and inexpensive copper metal, have generated a great deal of interest in recent years, especially in the field of catalysis. The possible modification of the chemical and physical properties of these nanoparticles using different synthetic strategies and conditions and/or via postsynthetic chemical treatments has been largely responsible for the rapid growth of interest in these nanomaterials and their applications in catalysis. In addition, the design and development of novel support and/or multimetallic systems (e.g., alloys, etc.) has also made significant contributions to the field. In this comprehensive review, we report different synthetic approaches to Cu and Cu-based nanoparticles (metallic copper, copper oxides, and hybrid copper nanostructures) and copper nanoparticles immobilized into or supported on various support materials (SiO2, magnetic support materials, etc.), along with their applications in catalysis. The synthesis part discusses numerous preparative protocols for Cu and Cu-based nanoparticles, whereas the application sections describe their utility as catalysts, including electrocatalysis, photocatalysis, and gas-phase catalysis. We believe this critical appraisal will provide necessary background information to further advance the applications of Cu-based nanostructured materials in catalysis.

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