ChemPlusChem

Journal: ChemPlusChem

Publisher

Wiley

ISSN

2192-6506

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Publications 1 - 10 of 10

Reply to Comment on “Commercially Available WO3 Nanopowders for Photoelectrochemical Water Splitting: Photocurrent versus Oxygen Evolution”
Niederberger, Markus (2017)
ChemPlusChem
Sequential Immobilization of Enzymes in Microfluidic Channels for Cascade Reactions
Fornera, Sara; Kuhn, Philipp; Lombardi, Dario; et al. (2012)
ChemPlusChem
Systematic Investigation of Resorcin[4]arene-Based Cavitands as Affinity Materials on Quartz Crystal Microbalances
Ryvlin, Dimitrij; Dumele, Oliver; Linke, Alexander; et al. (2017)
ChemPlusChem
Synthesis and Contact Angle Measurements of Janus Particles
Synytska, Alla; Kirillova, M. S. Alina; Isa, Lucio (2014)
ChemPlusChem
Structure-Property Relationships of Fe4S4 Clusters
Bergeler, Maike; Stiebritz, Martin T.; Reiher, Markus (2013)
ChemPlusChem
Sol-Gel-Derived, Calcium-Based, Copper-Functionalised CO2 Sorbents for an Integrated Chemical Looping Combustion-Calcium Looping CO2 Capture Process
Kierzkowska, Agnieszka M.; Müller, Christoph R. (2013)
ChemPlusChem
Modular Synthesis of Optically Active Troger's Base Analogues
Kamiyama, Takuya; Özer, Merve Sinem; Otth, Elisabeth; et al. (2013)
ChemPlusChem
Commercially Available WO3 Nanopowders for Photoelectrochemical Water Splitting: Photocurrent versus Oxygen Evolution
Reinhard, Sandra; Rechberger, Felix; Niederberger, Markus (2016)
ChemPlusChem
The Role of Interfaces in Heterostructures
Bartsch, Mario; Niederberger, Markus (2017)
ChemPlusChem
Keeping Nanoparticles Fully Functional
Widdrat, Marc; Kumari, Monika; Tompa, Eva; et al. (2014)
ChemPlusChem
Magnetite is an iron oxide found in rocks. Its magnetic properties are used for paleoclimatic reconstructions. It can also be synthesized in the laboratory to exploit its magnetic properties for bio- and nanotechnological applications. However, although the magnetic properties depend on particle size in a well-understood manner, they also depend on the structure of the oxide, because magnetite oxidizes to maghemite under environmental conditions. The dynamics of this process have not been well described. Here, a study of the alteration of magnetite particles of different sizes as a function of their storage conditions is presented. Smaller nanoparticles are shown to oxidize more rapidly than larger ones, and that the lower the storage temperature, the lower the measured oxidation. In addition, the magnetic properties of the altered particles are not decreased dramatically, thus suggesting that this alteration will not impact the use of such nanoparticles as medical carriers.

Publications 1 - 10 of 10

Journal: ChemPlusChem

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