Uddhav S. Markad scite author profile

Uddhav S. Markad

4Publications

14Citation Statements Received

104Citation Statements Given

How they've been cited

How they cite others

153

Affiliations

University of Notre Dame, Savitribai Phule Pune University, Bhabha Atomic Research Centre

Publications

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Immobilisation of palladium nanostructures in polyethersulfone beads: recyclable catalyst for chromium(VI) remediation

et al. 2019

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Environmental contextChromium, a carcinogenic metal present in the wastewater of several industries, is currently removed by treatment with large amounts of chemicals and expensive nano-catalysts. We have immobilised a nano-catalyst in tiny polymeric balls that are highly efficient at capturing chromium, and are easy to isolate for multiple reuse. Using our methodology, consumption of chemicals for removing chromium from wastewater is reduced by 97%. AbstractWe have synthesised and immobilised palladium nanostructures in porous polyethersulfone beads for the first time and demonstrated their catalytic application for the reductive transformation of toxic CrVI to nontoxic CrIII by formic acid at 25°C. The reduction of CrVI using palladium-polyethersulfone composite beads (Pd-PES), with a minimal Pd loading of 0.4 wt%, is found to be 98% with excellent operational stability retained up to 100 consecutive reaction cycles. Pseudo-first-order rate constant kapp for the 1st and 100th catalytic cycles is 0.167 and 0.158min−1 respectively. Pd-PES beads having a diameter of 2mm are easy to isolate post reduction by simple mesh filtration and can be re-used consecutively without any treatment. Owing to the high catalytic stability of the Pd nanostructures inside the beads, and the good mechanical and thermal stability of polyethersulfone, these beads can withstand rigorous treatment like mechanical stirring and elevated temperature, which renders them as highly reusable and as promising metal-polymer composite for practical application in CrVI remediation. For large scale application of this catalyst, we have demonstrated a methodology which reduces the consumption of formic acid by 98% in chromium remediation technology.

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Reactivity of Zn⁺_aq in high-temperature water radiolysis

Lisovskaya

Markad

Carmichael

et al. 2022

Phys. Chem. Chem. Phys.

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Photo enhanced detoxification of chromium (VI) by formic acid using 3D palladium nanocatalyst

Markad

Kalekar

Naik

et al. 2017

Journal of Photochemistry and Photobiology A: Chemistry

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Facile synthesis of palladium nanoparticle doped polyaniline nanowires in soft templates for catalytic applications

Kshirasagar

Markad

Saha

et al. 2017

Mater. Res. Express

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Uddhav S. Markad

Immobilisation of palladium nanostructures in polyethersulfone beads: recyclable catalyst for chromium(VI) remediation

Reactivity of Zn⁺_aq in high-temperature water radiolysis

Photo enhanced detoxification of chromium (VI) by formic acid using 3D palladium nanocatalyst

Facile synthesis of palladium nanoparticle doped polyaniline nanowires in soft templates for catalytic applications

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Uddhav S. Markad

Immobilisation of palladium nanostructures in polyethersulfone beads: recyclable catalyst for chromium(VI) remediation

Reactivity of Zn+aq in high-temperature water radiolysis

Photo enhanced detoxification of chromium (VI) by formic acid using 3D palladium nanocatalyst

Facile synthesis of palladium nanoparticle doped polyaniline nanowires in soft templates for catalytic applications

Contact Info

Product

Resources

About

Reactivity of Zn⁺_aq in high-temperature water radiolysis