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Markus B. Bannwarth  - - - 
Top co-authors
Daniel Crespy

95 shared publications

Department of Materials Science and Engineering,School of Molecular Science and Engineering; Vidyasirimedhi institute of Science and Technology; 21210,Payupnai,Wangchan Rayong Thailand

Luciano F. Boesel

25 shared publications

Laboratory for Biomimetic Membranes and Textiles, Lerchenfeldstr. 5 Empa St. Gallen Switzerland

18
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Publication Record
Distribution of Articles published per year 
(2012 - 2018)
Total number of journals
published in
 
14
 
Publications See all
Article 1 Read 1 Citation Off/On Fluorescent Nanoparticles for Tunable High-Temperature Threshold Sensing Alex Julià López, Daniel Ruiz-Molina, Katharina Landfester, ... Published: 29 May 2018
Advanced Functional Materials, doi: 10.1002/adfm.201801492
DOI See at publisher website
Article 0 Reads 3 Citations Enhanced photoluminescence properties of a carbon dot system through surface interaction with polymeric nanoparticles Rebecca Momper, Julian Steinbrecher, Matthias Dorn, Irina Rö... Published: 01 May 2018
Journal of Colloid and Interface Science, doi: 10.1016/j.jcis.2018.01.102
DOI See at publisher website
Article 0 Reads 4 Citations Fibrous Nanozyme Dressings with Catalase-Like Activity for H 2 O 2 Reduction To Promote Wound Healing Minghan Hu, Karsten Korschelt, Phillip Daniel, Katharina Lan... Published: 19 October 2017
ACS Applied Materials & Interfaces, doi: 10.1021/acsami.7b12212
DOI See at publisher website PubMed View at PubMed
Article 0 Reads 4 Citations Multifunctional clickable and protein-repellent magnetic silica nanoparticles Steven E. Mylon, Diego Estupiñán, Markus B. Bannwarth, Katha... Published: 01 January 2016
Nanoscale, doi: 10.1039/C5NR08258G
DOI See at publisher website PubMed View at PubMed ABS Show/hide abstract
Silica nanoparticles are versatile materials whose physicochemical surface properties can be precisely adjusted. Because it is possible to combine several functionalities in a single carrier, silica-based materials are excellent candidates for biomedical applications. However, the functionality of the nanoparticles can get lost upon exposure to biological media due to uncontrolled biomolecule adsorption. Therefore, it is important to develop strategies that reduce non-specific protein–particle interactions without losing the introduced surface functionality. Herein, organosilane chemistry is employed to produce magnetic silica nanoparticles bearing differing amounts of amino and alkene functional groups on their surface as orthogonally addressable chemical functionalities. Simultaneously, a short-chain zwitterion is added to decrease the non-specific adsorption of biomolecules on the nanoparticles surface. The multifunctional particles display reduced protein adsorption after incubation in undiluted fetal bovine serum as well as in single protein solutions (serum albumin and lysozyme). Besides, the particles retain their capacity to selectively react with biomolecules. Thus, they can be covalently bio-functionalized with an antibody by means of orthogonal click reactions. These features make the described multifunctional silica nanoparticles a promising system for the study of surface interactions with biomolecules, targeting, and bio-sensing.
Article 0 Reads 0 Citations Processing and adjusting the hydrophilicity of poly(oxymethylene) (co)polymers: nanoparticle preparation and film format... Markus B. Bannwarth, Rebecca Klein, Sven Kurch, Holger Frey,... Published: 01 January 2016
Polymer Chemistry, doi: 10.1039/C5PY01418B
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Handling the insoluble POM: the preparation of organic and aqueous nanoparticle dispersions based on poly(oxymethylene) copolymers and their film formation is described.
Article 0 Reads 0 Citations Macromol. Chem. Phys. 21/2015 Diego Estupiñán, Markus B. Bannwarth, Katharina Landfester, ... Published: 02 November 2015
Macromolecular Chemistry and Physics, doi: 10.1002/macp.201570066
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