Reactive Carbide-Based Synthesis and Microstructure of NASICON Sodium Metal All Solid-State Electrolyte [0.03%]
基于反应性碳化物的NASICON固态电解质的合成及微观结构研究
Callum J Campbell,Scott Monismith,Vikalp Raj et al.
Callum J Campbell et al.
Reactive carbide precursor-based synthesis of NASICON-type NZSP (Na1+xZr2SixP3-xO12) solid-state electrolyte (SSE) is demonstrated, in contrast to the established oxide-based approach. Exothermic decomposition of ZrC and SiC in air homogeni...
Spin-Orbit-Driven Quarter Semimetals in Rhombohedral Graphene [0.03%]
rhombohedral石墨烯中的自旋-orbit驱动的四分之一半导体
Jing Ding,Hanxiao Xiang,Naitian Liu et al.
Jing Ding et al.
Semimetals exhibit intriguing characteristics attributed to the coexistence of both electrons and holes. In rhombohedral multilayer graphene, a strong trigonal warping effect gives rise to a semi-metallic state near the Fermi surface, offer...
Highly Active IrOx Formation on Strontium Manganite for Acidic Oxygen Evolution [0.03%]
用于酸性析氧反应的高效铱氧化物/锶锰氧化物电催化剂
Jia Wei Zhao,Kaihang Yue,Zhihao Pei et al.
Jia Wei Zhao et al.
Iridium-based oxides are considered the most effective catalysts for the acidic oxygen evolution reaction (OER) due to their superior stability and high activity. However, the high Ir content required poses a significant barrier to their co...
Shuting Sun,Fang Chen,Feike Pei et al.
Shuting Sun et al.
The pervasive bond-strain negative feedback loop in multi-electron conversion-alloy anodes, where strong covalent bonds constrain lattice transformation during sodiation, induces strain accumulation and bond rupture. This results in sluggis...
Photoelectrochemical Glycerol Valorization Achieving an Internal Quantum Efficiency Over 180% via Current Doubling [0.03%]
通过电流倍增实现内部量子效率超过180%的光催化甘油高值化反应
Zihao Wu,Haoran Guo,Kexin Ren et al.
Zihao Wu et al.
Traditional photoelectrochemical (PEC) systems struggle to simultaneously achieve high efficiency, high stability, and low cost. Replacing water oxidation with oxidation of organic molecules emerges as an attractive strategy to enhance the ...
Synthesizer: Chemistry-Aware Machine Learning for Precision Control of Nanocrystal Growth [0.03%]
化学知识驱动的人工智能精准控制纳米晶生长中的应用
Nina A Henke,Leo Luber,Ioannis Kouroudis et al.
Nina A Henke et al.
Precise and reproducible control over nanocrystal synthesis is essential for tailoring optical properties, yet remains a long-standing challenge in halide perovskites. A broadly adoptable machine learning-guided framework, the Synthesizer, ...
Biocompatible Nanozyme Shell-Armed Probiotic with Inflammation Targeting and Scavenging Properties Enables Effective Treatment of Colitis [0.03%]
一种生物相容性纳米酶外壳武装益生菌具有抗炎和清除自由基的特性可有效治疗结肠炎
Weiwen Liang,Guangyuan Chen,Bingna Zheng et al.
Weiwen Liang et al.
Coupling probiotics with lesion targeting and inflammation control properties without complex chemical modifications is crucial for preserving their native bioactivity, but remains challenging. Herein, metformin as a functional self-modulat...
Constructing Topological Vortex Domains in Polar Nano-Regions Enables High-Capacitive Energy Storage [0.03%]
在铁电纳米区域中构建拓扑涡旋畴以实现高储能容量
Jin Qian,Guanglong Ge,Ziming Cai et al.
Jin Qian et al.
Overcoming the polarization-relaxor trade-off in dielectric capacitors remains a critical challenge for achieving simultaneous high energy density (Wrec) and efficiency (η). While conventional polar nano-regions (PNRs) enhance relaxor beha...
Bioinspired Photothermal Superhydrophobic Metamaterial With Structured Micro-Nano Crystal Arrays for Anti-/De-Icing [0.03%]
一种具有微纳晶格结构的仿生光热超疏水 metamaterial 的防/除冰研究
Zhiyu Ren,Sijia Niu,Aijing Lv et al.
Zhiyu Ren et al.
Unwanted ice accumulation can lead to catastrophic disasters or economic losses. Photothermal superhydrophobic surfaces show promise for anti-/de-icing applications, but their effectiveness depends critically on precise micro-nano hierarchi...
Oxygen-Mediated Topological Growth of MoS2 for Symmetry-Anisotropy Coengineered Ultrafast Electronic Switching [0.03%]
氧介导的MoS₂拓扑生长用于超快电子开关的对称性各向异性协同工程
Qing Zhang,Yanxue Zhang,Yongshuai Wang et al.
Qing Zhang et al.
Anisotropic 2D materials offer transformative potential for directionally programmable electronics, but the fundamental trade-off between structural symmetry and electronic anisotropy has limited their device applications. Herein, a topolog...