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  • The spin Hall-induced bilinear magnetoelectric resistance is a general phenomenon that arises in three-dimensional systems, particularly playing a crucial role in antiferromagnetic spintronics.

    • Dong-Jun Kim
    • Kyoung-Whan Kim
    • Hyunsoo Yang
    Article
  • Shape transformations in microrobots less than 1 mm in size remain challenging. Here the authors present an electronically configurable metasheet microrobot with reprogrammable shapes and locomotory gaits in an electrolytic solution.

    • Qingkun Liu
    • Wei Wang
    • Itai Cohen
    Article
  • Second-order superlattices emerging in magic-angle twisted bilayer graphene aligned with hexagonal boron nitride are visualized in real space through cryogenic nano-imaging, revealing the impact of strain and twist-angle variations.

    • Niels C. H. Hesp
    • Sergi Batlle-Porro
    • Frank H. L. Koppens
    Article
  • While transition metal nitrides are promising low-cost electrocatalysts for the oxygen reduction reaction in alkaline media, a fundamental understanding of their activity is still lacking. Here MnN nanocuboids with well-defined surface structures are investigated, providing atomistic insight and mechanistic understanding.

    • Rui Zeng
    • Huiqi Li
    • Héctor D. Abruña
    Article
  • The practical application of 2D transition metal dichalcogenides (TMDs) requires robust and scalable synthesis of these atomically thin materials and their heterostructures. This Review discusses the key challenges, current progress and opportunities in the controllable synthesis of TMD-based heterostructures, superlattices and moiré superlattices.

    • Jia Li
    • Xiangdong Yang
    • Xiangfeng Duan
    Review Article
  • The realization of twisted ligand-free two-dimensional halide perovskite-based moiré superlattices enables twistronic control of exciton dynamics in these systems and brings stimulating implications towards the development of halide perovskite photonic devices.

    • William A. Tisdale
    News & Views
  • Inspired by non-trivial band topology and the variety of correlated electronic phases in moiré superlattices formed in van der Waals materials, scientists are finding alternative material platforms to exploit the rich phenomena arising from the twist-angle degree of freedom.

    Editorial
  • The question of whether all materials can be put into glass form was raised half a century ago but has remained unanswered. Using picosecond pulsed laser ablation, the vitrification of gold — which has been notoriously difficult — and several other monatomic metals is demonstrated, indicating that vitrification is an intrinsic property of matter.

    Research Briefing
  • Filamentous viruses are a tunable platform for understanding the propagation of chirality across length scales, starting from the helical organization of major coat proteins on the virion surface to the liquid crystalline cholesteric phases formed in aqueous suspensions.

    • Grace A. R. Rohaley
    • Torsten Hegmann
    News & Views
  • This Review introduces emerging nonlinear electronic, optical and optoelectronic properties of moiré superlattices and discusses opportunities and challenges in this rapidly progressing field, as well as implications for fundamental physics and technological innovations.

    • Luojun Du
    • Zhiheng Huang
    • Zhipei Sun
    Review Article
  • Platforms that exhibit moiré patterns have the potential to tailor band structures and control electromagnetic and mechanical waves. This Perspective discusses the current state of the art, challenges and outlook within the realm of classical wave physics.

    • Mourad Oudich
    • Xianghong Kong
    • Yun Jing
    Perspective
  • The authors use scanning tunnelling microscopy and muon spin resonance to demonstrate time-reversal symmetry-breaking superconductivity in Cs(V, Ta)3Sb5. The Cooper pairing in this state exhibits magnetism and is modulated by it.

    • Hanbin Deng
    • Guowei Liu
    • Jia-Xin Yin
    Letter