Paul Handa
Chalmers University of Technology
13 Papers
67 Citations
Paul Handa is an academic researcher from Chalmers University of Technology. The author has contributed to research in topics: Catalysis & Mesoporous silica. The author has an hindex of 10, co-authored 13 publications.
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Papers
Nano‐hydroxyapatite‐coated PEEK implants: A pilot study in rabbit bone
Sargon Barkarmo,Ann Wennerberg,Ann Wennerberg,Maria Hoffman,Per Kjellin,Karin Breding,Paul Handa,Victoria Franke Stenport +7 more
TL;DR: Higher mean bone-to-implant contact indicated better osseointegration in the coated implants than in the uncoated controls, and the large number of lost implants was interpreted as a lack of primary stability due to implant design.
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Complexation Chemistry for Tuning Release from Polymer Coatings
TL;DR: The results indicate the possibility of tuning the release of Medetomidine by altering the coordinating metal ion, which may prove to be favorable in a paint formulation.
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Family of Isoreticular Chiral Metal-Organic Frameworks Based on Coordination and Hydrogen Bonds in [M[Co(ethylenediamine)(oxalato) 2 ] 2 ]
Cédric Borel,Kate Davies,Paul Handa,Gustav Hedberg,Clive L. Oliver,Susan A. Bourne,Mikael Håkansson,Vratislav Langer,Lars Öhrström +8 more
TL;DR: From the parent compound [Ca[Co(ethylenediamine)(oxalato)2]2]n·4H2O, 1, a series of framework compounds was prepared via the soluble sodium salt and crystal growth with the divalent metal ions Cd2+... as discussed by the authors.
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1,4-Conjugate addition reaction catalyzed by a homogeneous rhodium catalyst entrapped in hydrophobized ordered mesoporous silica
TL;DR: In this article, a 1,4-conjugate addition reaction between p-carboxyphenylboronic acid and methyl acrylate has been performed using a homogenous rhodium catalyst entrapped in the hydrophobic pores of hydrophobized ordered mesoporous silica.
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A carbon–carbon coupling reaction catalyzed by a water soluble rhodium catalyst entrapped in mesoporous silica
TL;DR: In this article, a Heck-type reaction between an arylboronic acid and styrene was performed using a water soluble rhodium catalyst entrapped in the water-filled pores of mesoporous silica particles.
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