Correction: Decoupling thermoelectric parameters in novel ionic layered materials: a charged monolayer stabilization strategy for enhanced anisotropy [0.03%]
纠正:在新型离子层状材料中分离热电参数:一种增强各向异性的带电单层稳定策略
Yaobo Li,Meng Pei,Ziyang Zuo et al.
Yaobo Li et al.
Correction for 'Decoupling thermoelectric parameters in novel ionic layered materials: a charged monolayer stabilization strategy for enhanced anisotropy' by Yaobo Li et al., Mater. Horiz., 2026, https://doi.org/10.1039/D5MH02247A.
Published Erratum
Materials horizons. 2026 May 8. DOI:10.1039/d6mh90050j 2026
Cuttlebone-inspired PMIA membranes with symmetric porous structure for enhanced mechanical stability of ultrafiltration [0.03%]
受墨鱼骨启发的具有对称多孔结构的PMIA超滤膜性能增强机械稳定性
Jiaqing Su,Yuxiang Zhu,Cheng Huang et al.
Jiaqing Su et al.
Tight ultrafiltration (TUF) membranes have garnered significant attention for the treatment of printing and dyeing wastewater, owing to their high separation efficiency and water permeance. However, macrovoids in TUF membranes fabricated vi...
Strategic molecular conformation engineering enables significantly enhanced high-temperature energy storage in polyetherimide [0.03%]
战略分子构型工程使聚醚酰亚胺高温能量储存性能得到显著提升
Xianhui Dong,Yan Wang,Jiabin Fu et al.
Xianhui Dong et al.
To accommodate the advancement of next-generation power electronics toward high-level integration and miniaturization, it is imperative to develop polymer dielectrics that maintain superior energy storage performance under thermal extremes....
Giant surface potentials in organic films enable electrode-free self-driven water droplets [0.03%]
巨大的表面电势使有机薄膜能够实现无电极自驱动的水滴现象
Tsuyoshi Tsujioka,Hiroyuki Kawashima,Kenji Koike et al.
Tsuyoshi Tsujioka et al.
Vacuum-deposited organic molecular films can generate giant surface potentials (GSPs) through spontaneous molecular orientation. Here we show that these GSPs can directly drive autonomous water droplet motion via dielectrophoretic forces, e...
Inverse design of thermally active composite via policy-transferred reinforcement learning [0.03%]
基于策略传输的强化学习的热活性复合材料逆向设计
Songho Lee,Sukheon Kang,Jisoo Nam et al.
Songho Lee et al.
Active composites (ACs) capable of autonomous shape transformation under external stimuli enable new opportunities for soft robotics, biomedical devices, and intelligent structures. However, the combinatorial design space of multi-material ...
Printable, self-healing and recyclable PEDOT:PSS/polyurethane composites for durable bioelectronics [0.03%]
用于耐用生物电子产品的可打印、自修复和可回收的PEDOT:PSS /聚氨酯复合材料
Jinsil Kim,Fabio Cicoira
Jinsil Kim
The development of self-healing conductors that are simultaneously printable, recyclable, and resilient to severe mechanical damage remains a key challenge for flexible bioelectronic technologies. Here, we report a multifunctional composite...
Biomimetic low-porosity framework membranes for efficient power generation and acid recycling from industrial wastewater [0.03%]
用于工业废水中高效发电和酸回收的仿生低孔框架膜
Yujue Wang,Weidong Gu,Yanfeng Gong et al.
Yujue Wang et al.
Selective proton transport membranes are crucial for applications like fuel cells, acid recycling, and osmotic power generation, but their rational construction to achieve both high selectivity and permeability is challenging. Biological pr...
Advances in defect-engineered metal-support interactions for acidic oxygen evolution reaction [0.03%]
缺陷工程在酸性条件下调控金属-载体相互作用研究进展
Fangfang Zhu,Qilong Wu,Dongdong Zhang et al.
Fangfang Zhu et al.
The development of efficient and stable catalysts for the acidic oxygen evolution reaction (OER) is critical for the commercialization of proton exchange membrane water electrolyzers (PEMWEs). To reduce the reliance on scarce noble metals, ...
Sustainable and scalable polyphenolic bioadhesives for hemostasis and surface functionalization [0.03%]
可持续且可扩展的茋类多酚生物粘合剂用于止血和表面功能化
Eunu Kim,Jeongin Seo,Haeshin Lee
Eunu Kim
Adhesive polyphenolic materials, inspired by mussel underwater adhesion, are promising candidates for versatile medical and industrial adhesives. Yet, most synthetic routes remain chemically intensive, energy-demanding, and poorly suited to...
Dual-site molecular passivation at the buried interface for high-efficiency and stable perovskite solar cells [0.03%]
高效的稳定钙钛矿太阳能电池的埋藏界面双位点分子钝化技术
Yi Dong,Houru Zhu,Ting Zhu et al.
Yi Dong et al.
Buried interface defects in perovskite solar cells (PSCs) critically limit the device performance and operational stability due to their role in promoting non-radiative recombination and interfacial degradation. Herein, we propose a molecul...