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Liquid‐Templating Aerogels
In article number 2302826, Seyyed Alireza Hashemi, Ahmadreza Ghaffarkhah, Seeram Ramakrishna, Thomas P. Russell, Milad Kamkar, Mohammad Arjmand, and co‐workers report an innovative method for aerogel production. The approach enables engineering the design from nanoscale chemistry to microscale interfacial complexation of nanoparticles, resulting in the macroscale creation...
Modern materials science has witnessed the era of advanced fabrication methods to engineer functionality from the nano‐ to macroscales. Versatile fabrication and additive manufacturing methods are developed, but the ability to design a material for a given application is still limited. Here, a novel strategy that enables target‐oriented manufacturing of ultra‐lightweight aerogels with on‐demand characteristics...
Multiscale Design
In article number 2200220, Milad Kamkar, Orlando J. Rojas, and co‐workers devise types of biphasic soft materials featuring unique morphologies, e.g., continuous, multilayer, interpenetrated, and tubular structures. This is achieved by interfacial co‐assembly of nanomaterials and surfactants. These soft materials allow for the fabrication of structurally tunable and stable ultra‐flyweight...
The rapid co‐assembly of graphene oxide (GO) nanosheets and a surfactant at the oil/water (O/W) interface is harnessed to develop a new class of soft materials comprising continuous, multilayer, interpenetrated, and tubular structures. The process uses a microfluidic approach that enables interfacial complexation of two‐phase systems, herein, termed as “liquid streaming” (LS). LS is demonstrated as...
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