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Varindra Kumar

Varindra Kumar

University of Cambridge, UK

Title: Carbon nano tube gas sensor using thin wire dipole antenna

Biography

Varindra Kumar has obtained his Bachelors in Electronics Engineering from National Institute of Technology  Rourkela, Master of Technology in Electronics and Communication Engineering from Indian Institute of Technology Varanasi. Subsequently after working across various companies in electronics design, he joined PhD at the University of Nottingham in EMC Macromodeling. After finishing his PhD he is working as Postdoc in gas sensing design and manufacturing at the department of Engineering, University of Cambridge. He is the editor and reviewer of some electronics and its related journals and conferences and has published a total of 22 journal and conference papers.

Abstract

Carbon Nano tube (CNT) with its unique thermal, mechanical, electrical and chemical property provide sound mechanism for gas sensing and its density measurement. The attribute of CNT in retaining these properties even after forming a wide surface area to provide consistent and reliable result makes it an excellent material for a wide range of applications. The multi wall carbon nano tube (MWCNT) and Graphene based doping /hybrid (alloy with other metallic elements or polymer components and functionalisation of CNT with other materials) solutions enhance these electrical, physical and chemical properties further. In addition, the nano-structure property of the CNT provides a promising potential for its application. This paper talks about the design and modeling of FeCl3 doped thin film CNT based transducer element with the structure of 5 GHz range dipole antenna (using a thin wire dipole) for gas sensing and detection. The doped unrolled MWCNT based structure have been used to enhance its electrical conductivity to provide a comparative conductivity of other existing metals such as copper, silver and gold which combined with its high surface area provides a highly accurate, consistent and sensitive detection at given operating conditions. The change in electrical conductivity or electron mobility of the CNT diffused element within the vicinity of gas particles is a good source of gas particle measurement. Different gas particles such as O2, NO2, NH3, SO2, CO2 and CO when exposed over an enclosed CNT dipole antenna within an enclosure shows a shift in its resonant frequency (in comparison of unexposed CNT sheet of 5 GHz resonance), which provides a sound mechanism for particle type and density measurement. As the electrical conductivity of CNT is also sensitive to temperature, pressure and moisture present in the environment, the design methodology has been calibrated for these parameters while obtaining the result.

Recent Publications

1. Kumari A, Jana RK (2013) Extraction of metals from sea-nodules using buffered sodium chloride media. Indian chemical engineer 55: 1-8.

2. Nichani K, Bapat S, Kumari A (2014) A study of combating climate change with carbon capture and sequestration. International journal of engineering and technical research 2: 269-272.

3. Maskaria K, Kadam SK, Kumari A (2015) Study on zero discharge plant for waste water treatment of pharmaceutical industry. International journal of latest trends in engineering and technology 7: 98-102.

4. Kumari A, Mohammed S, Rumane N, Bholla R, Bhawnani S (2016) Improving the dissolved oxygen levels in waste water using oxygen concentrator. GE-International journal of engg. research 4: 1 -9.

5. Tholan PV, Kumari A (2017) an innovative method for waste water treatment using fluidized media bio reactor process. research journal of pharmaceutical, biological and chemical sciences 8: 184-190.