H
Hartmut Fischer
Researcher at Netherlands Organisation for Applied Scientific Research
Publications - 149
Citations - 5745
Hartmut Fischer is an academic researcher from Netherlands Organisation for Applied Scientific Research. The author has contributed to research in topics: Polymer & Nanocomposite. The author has an hindex of 39, co-authored 138 publications receiving 4951 citations. Previous affiliations of Hartmut Fischer include Eindhoven University of Technology.
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Polymer nanocomposites: from fundamental research to specific applications
TL;DR: In this article, the interaction enthalpy between all components using special compatibilisation agents for the two intrinsically non-miscible materials is adjusted using a route block or graft copolymers, which leads to a separation of the mineral into single particles and a subsequent homogeneous incorporation of these particles into the polymer matrix material.
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A critical appraisal of the potential of self healing polymeric coatings
TL;DR: In this paper, the potential of existing self-healing approaches applied or likely to be applied to the field of organic coatings, analyzing the pros and cons of each healing mechanism and highlighting the potential for development of non-explored areas of coatings technology.
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A review of salt hydrates for seasonal heat storage in domestic applications
TL;DR: In this article, a literature review is performed in order to collect and analyse the thermodynamic data of an utmost number of salt hydrate reactions (i.e., 563 reactions are reviewed). These data allow us to evaluate the theoretical possibilities and limitations of salt hydrates as thermochemical materials (TCMs) for seasonal heat storage in the built environment.
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Nanocomposites from polymers and layered minerals
TL;DR: In this article, the first part of the compatibilizer is preferentially an ionic interaction or an interaction via hydrogen bonds, which leads to a separation of the mineral into single sheets and/or small clusters containing approximately 2-10 sheets and a subsequent homogeneous incorporation of these clusters into the polymer matrix material.