Biomass and Bioenergy

Biography

Biography: Swati Sharma

Abstract

Pyrolysis or controlled heating of biodegradable and non-biodegradable polymers is an emerging technique for their safe decomposition and possible recycle. The mixture of volatile products resulting from pyrolysis is typically collected as the ???syngas???, which is further separated by distillation into gaseous products to be used as fuels and precursors for the synthesis of various high molecular weight organic compounds. However, one major challenge associated with waste polymer pyrolysis is the handling of the residual solid byproducts, often designated as ???ash???. In our group we develop novel pathways to pyrolyze polymers such that the solid residues are useable forms of elemental carbon rather than ashes. Depending on the surface properties and the extent of crystallinity these carbon materials are further classified as glassy or activated. While activated carbon, often obtained from cellulosic materials such as papers waste, is employed in various industry-scale adsorber and filtration applications; glassy carbon is extensively used in miniaturized devices such as micro/ nano electromechanical systems (MEMS/ NEMS), battery and supercapacitor anodes, sensors and cell culture scaffolds owing to the fact that it can be derived from lithographically patterned polymers. This talk will be focused on various aspects of pyrolytic carbons including (i) the structure-property relationship in pyrolytic carbons at bulk and nano-scale, (ii) influence of pyrolysis conditions on the microstructure of resulting carbon, (iii) characterization and classification of carbon obtained from polymers of different chemical classes, and (iv) unconventional applications of pyrolytic carbons. Pyrolysis efficiency, state-of-the-art characterization techniques such as in situ electron microscopy will also be touched upon. Recent Publications 1. Erwin Fuhrer, Anne B�cker, Stephanie Kraft, Friederike J. Gruhl, Matthias Kirsch, Neil MacKinnon, Jan G. Korvink, Swati Sharma. 3D Carbon Scaffolds for Neural Stem Cell Culture and Magnetic Resonance Imaging. Advanced Healthcare Materials, 2017, 1700915. 2. Anna Zakhurdaeva, Philipp-Immanuel Dietrich, Hendrik H�lscher, Christian Koos, Jan G. Korvink, Swati Sharma. Custom-Designed Glassy Carbon Tips for Atomic Force Microscopy. Micromachines, 8(9), 2017, 285. 3. Swati Sharma, Arpad Rostas, Neil MacKinnon, Stefan Weber, Jan Korvink. Micro and nano patternable magnetic carbon. Journal of Applied Physics, 120, 2016, 235107. 4. Gerald G�ring, Philipp-Immanuel Dietrich, Matthias Blaicher, Swati Sharma, Jan G. Korvink, Thomas Schimmel, Christian Koos, Hendrik H�lscher. Tailored probes for atomic force microscopy fabricated by two-photon polymerization. Applied Physics Letters, 109, 2016, 063101. 5. Swati Sharma, Neil MacKinnon, Vlad Badilita, Sebastian Kiss, Lorenzo Bordonali, Jan Korvink. Carbon MEMS for Magnetic Resonance. In ???Carbon: The Next Silicon????, Momentum Press, LLC, New York USA, 2016.