Functional composites by programming entropy-driven nanosheet growth.

TL;DR: High-temperature dielectric homopolymer dielectrics with anisotropic lamellar structure exhibit enhanced breakdown strength and reduced leakage current.

TL;DR: Multilaminate energy storage films from entropy-driven self-assembled supramolecular nanocomposites exhibit high energy efficiency, energy density, and power density due to their well-distributed nanoparticles and oriented interfacial barriers.

TL;DR: A correlative size is introduced to simplify the comparison between samples using Guinier-Porod (GP) functions. This correlative size estimates the radius of a given geometry placed at the same intersection point in the scattering momentum transfer q-axis.

TL;DR: A comprehensive textbook on polymer physics covering a wide range of topics for upper-level undergraduates and first-year graduate students.

TL;DR: The common design motifs of a range of natural structural materials are reviewed, and the difficulties associated with the design and fabrication of synthetic structures that mimic the structural and mechanical characteristics of their natural counterparts are discussed.

TL;DR: In this article, a review of critical aspects of high-entropy alloys, including core effects, phases and crystal structures, mechanical properties, high-temperature properties, structural stabilities, and corrosion behaviors are discussed.

TL;DR: A challenge for future studies is to create hierarchically structured composites in which each sublayer contributes a distinct function to yield a mechanically integrated, multifunctional material.