M
Meifang Zhou
Researcher at University of Melbourne
Publications - 48
Citations - 1494
Meifang Zhou is an academic researcher from University of Melbourne. The author has contributed to research in topics: Photocatalysis & Microbubbles. The author has an hindex of 21, co-authored 48 publications receiving 1324 citations. Previous affiliations of Meifang Zhou include University of New South Wales.
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Journal ArticleDOI
Ultrasound assisted photocatalytic degradation of diclofenac in an aqueous environment
Jagannathan Madhavan,Panneer Selvam Sathish Kumar,Panneer Selvam Sathish Kumar,Sambandam Anandan,Meifang Zhou,Franz Grieser,Muthupandian Ashokkumar +6 more
TL;DR: The sonophotocatalytic degradation of DF using TiO(2) under UV-vis radiation showed a slight synergistic enhancement in the degradation of the parent compound, whereas a detrimental effect was observed for the mineralization process.
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Agarose template for the fabrication of macroporous metal oxide structures.
TL;DR: The overall pore size and surface area are lower than the original gel due to shrinkage occurring with the sol-gel process, as well as crystallization and a loss of microporosity in the final material.
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Ultrasound assisted preparation of nanoclay Bentonite-FeCo nanocomposite hybrid hydrogel: A potential responsive sorbent for removal of organic pollutant from water
TL;DR: In this article, an ultrasound assisted in situ emulsion polymerization was carried out to synthesize poly(acrylic acid)-bentonite-feCo (PAA-B-FeCo) hydrogel nanocomposite.
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Sonochemical and sustainable synthesis of graphene-gold (G-Au) nanocomposites for enzymeless and selective electrochemical detection of nitric oxide.
Renu Geetha Bai,Kasturi Muthoosamy,Meifang Zhou,Muthupandian Ashokkumar,Nay Ming Huang,Sivakumar Manickam +5 more
TL;DR: The synergistic effect of graphene and AuNPs, which facilitated exceptional electron-transfer processes between the electrolyte and the GCE thereby improving the sensing performance of the fabricated G-Au modified electrode with stable and reproducible responses, exhibited an excellent selectivity towards NO in the presence of interferences.
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Enhanced hydrogen storage capacity in carbon aerogels treated with KOH
TL;DR: In this paper, a KOH-catalysed carbon aerogel exhibits a hydrogen uptake of ∼5.2% at 77 K and 3.5 MPa at 1.5 K. The correlation of maximum hydrogen uptake with surface area and micropore volume was investigated.