V
Volker Hessel
Researcher at University of Adelaide
Publications - 616
Citations - 24861
Volker Hessel is an academic researcher from University of Adelaide. The author has contributed to research in topics: Microreactor & Catalysis. The author has an hindex of 68, co-authored 572 publications receiving 21707 citations. Previous affiliations of Volker Hessel include Mainz Institute of Microtechnology & Fraunhofer Society.
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Study of plasma parameters and gas heating in the voltage range of nondischarge to full‐discharge in a methane‐fed dielectric barrier discharge
TL;DR: In this paper , the effects of input voltage and gas flow rate on plasma and background gas parameters in a voltage range where the transition from nondischarge to full discharge happens are investigated. But the authors focus on a specific methane-fed dielectric barrier discharge as a plasma reactor.
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Tunable enhanced Faraday rotation in a defected plasma photonic crystal under external magnetic field with different declinations
TL;DR: In this paper, the effect of the number and dielectric defect layer thickness as well as the intensity and declination angle of magnetic field on transmittance, Faraday rotation, and its ellipticity was investigated.
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Critical Elements: Opportunities for Microfluidic Processing and Potential for ESG-Powered Mining Investments
Tu Nguyen Quang Le,Volker Hessel,Quy Don Tran,Nam Nghiep Tran,Craig Priest,William Skinner,Michael Evan Goodsite,Carl Spandler,Nigel J. Cook +8 more
TL;DR: Critical minerals are those containing elements, typically metals, and element allotropes such as graphite, which have an irreplaceable role in the ongoing revolution in technology and manufacturing needed to progress as discussed by the authors .
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Special issue on nitrogen fixation in plasma: from fundamentals to sustainability
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Synergism of ionic liquids and lipases for lignocellulosic biomass valorization
Darijo Šibalić,Ana Žabkar Šalić,Bruno Zelić,Nghiep Nam Tran,Volker Hessel,Krishna D.P. Nigam,Marina Tišma +6 more
TL;DR: In this article , solutions for cascade processes to convert lignocellulosic biomass into value-added products using ionic liquids and lipases are investigated, and a sustainability assessment of the synthesis of three selected ionic liquid and six lipase-catalyzed biotransformation in ionic fluid was performed using green chemistry metrics.