Researchers at RWTH Aachen University, DWI − Leibniz-Institute for Interactive Materials and the Helmholtz-Zentrum Berlin für Materialien und Energie have used Hummingbird Scientific’s liquid-heating TEM platform to visualize  compartementalization in adaptive microgels.  They recently presented their findings in Nano-letters.

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Compartmentalization in soft materials is important for segregating and coordinating chemical reactions as well as  sequestering (re)active components. The authors show the direct visualization of different compartments within adaptive microgels using a combination of in-situ electron and fluorescence microscopy.  By acquiring an unprecedented levels of structural details they address the challenge of reconstructing 3D information from 2D projections for nonuniform soft matter as opposed to monodisperse proteins. They also show the thermally induced shrinkage of responsive core–shell microgels in water. Applying the methods used in this work more broadly open doors for in-situ studies of soft matter systems and their application as smart materials.

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Reference:

3D Structures of Responsive Nanocompartmentalized Microgels

Arjan P. H. Gelissen^†, Alex Oppermann^†, Tobias Caumanns^‡, Pascal Hebbeker^†, Sarah K. Turnhoff^†, Rahul Tiwari^§, Sabine Eisold^∥, Ulrich Simon^∥, Yan Lu^⊥, Joachim Mayer^‡, Walter Richtering^†, Andreas Walther^§, and Dominik Wöll^*†

^† Institute of Physical Chemistry, RWTH Aachen University

^‡ GFE Central Facility for Electron Microscopy, RWTH Aachen University

^§ DWI − Leibniz-Institute for Interactive Materials

^∥ Institute of Inorganic Chemistry, RWTH Aachen University

^⊥ Soft Matter and Functional Materials, Helmholtz-Zentrum Berlin für Materialien und Energie

Nano Lett., 2016, 16 (11), pp 7295–7301

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