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Showing 1–8 of 8 results
Advanced filters: Author: Athanassios Z. Panagiotopoulos Clear advanced filters

    • Jeremy C. Palmer
    • Fausto Martelli
    • Pablo G. Debenedetti
    Research
    Nature
    Volume: 531, P: E2-E3

  • The biomolecular principles underlying the formation of multiphasic condensates have been difficult to elucidate owing to a paucity of tools, especially within living cells. In this work synthetic orthogonal protein scaffolds alongside molecular simulations are used to highlight how the oligomerization of disordered proteins can asymmetrically drive miscibility–immiscibility transitions.

    • Ushnish Rana
    • Ke Xu
    • Clifford P. Brangwynne
    ResearchOpen Access
    Nature Chemistry
    Volume: 16, P: 1073-1082

  • By advanced machine learning techniques, first-principles simulations find that dissolving salt in water does not change water structure drastically. It is contrary to the notion of “pressure effect” which has been widely applied over past 25 years.

    • Chunyi Zhang
    • Shuwen Yue
    • Xifan Wu
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-6

  • It is challenging to prepare colloidal crystals with long-range order for their applications. Mahynski et al. propose a method to achieve this goal through tailoring energy loss of absorbed polymers in crystal voids to selectively stabilize one crystal structure among its competing polymorphs.

    • Nathan A. Mahynski
    • Athanassios Z. Panagiotopoulos
    • Sanat K. Kumar
    Research
    Nature Communications
    Volume: 5, P: 1-8

  • Anisotropic superstructures produced by the self-assembly of spherical nanoparticles are realized. Uniformly grafting polymer chains onto inorganic spherical nanoparticles produces particles with amphiphile-like behaviour. Mixing these with monodisperse polymer facilitates the self-assembly of numerous anisotropic nanocomposites.

    • Pinar Akcora
    • Hongjun Liu
    • Jack F. Douglas
    Research
    Nature Materials
    Volume: 8, P: 354-359

  • A stable crystal phase and two metastable liquid phases of the ST2 model of water exist at the same deeply supercooled condition, and the two liquids undergo a first-order liquid–liquid transition that meets stringent thermodynamic criteria.

    • Jeremy C. Palmer
    • Fausto Martelli
    • Pablo G. Debenedetti
    Research
    Nature
    Volume: 510, P: 385-388