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dc.contributor.author Makgwane, PR
dc.contributor.author Ray, SS
dc.date.accessioned 2014-05-26T05:48:46Z
dc.date.available 2014-05-26T05:48:46Z
dc.date.issued 2013-10
dc.identifier.citation Makgwane, P.R and Ray, S.S. 2013. Interface of nanocatalysis and microfluidic reactors for green chemistry methods. In: An Introduction to Green Chemistry Methods. Future Medicine: London, UK, pp 41-53 en_US
dc.identifier.isbn 978-1-909453-10-4
dc.identifier.uri http://www.futuremedicine.com/doi/full/10.4155/ebo.13.231
dc.identifier.uri http://hdl.handle.net/10204/7430
dc.description Copyright: Future Medicine, London, UK. Abstract only attached. en_US
dc.description.abstract The development of green catalytic methods for chemical synthesis and energy generation based on nanocoated catalyst microfluidic systems is a growing area of innovative research. The interface between heterogeneous catalysis and microchannel reactors has demonstrated superior process performance over conventional technologies for green chemical synthesis and energy generation. In this instance, energy generation technologies are focused on catalytic reforming for H2 production and fuel cells for energy supply. This chapter highlights and analyzes the key achievements to date on integrated catalysis and microfluidics concepts in chemical synthesis and energy generation. Emphasis is focused on highlighting the enhanced potential of integrated nanocoated catalyst microfluidics as an effective technology to meet the demands of green and sustainable chemistry methods. en_US
dc.language.iso en en_US
dc.publisher Future Medicine en_US
dc.relation.ispartofseries Workflow;12689
dc.subject Nanocatalysis en_US
dc.subject Microfluidic ractors en_US
dc.subject Green chemistry en_US
dc.title Interface of nanocatalysis and microfluidic reactors for green chemistry methods en_US
dc.type Book chapter en_US


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