Emergence of a zero-bias peak on the MgO/Fe(001) surface induced by the adsorption of a spin-1/2 molecule [0.03%]
吸附自旋-1/2分子在Fe(001)表面上诱导的MgO/Fe(001)表面的零偏压峰的产生
Kyosei Ishii,Nana K M Nazriq,Peter Krüger et al.
Kyosei Ishii et al.
Engineering electronically decoupled spin states is essential for achieving robust spin by suppressing inelastic spin-flip scattering induced by conduction electrons. Accordingly, the fabrication of spins on insulating ultrathin films such ...
Mike Blueggel,Désirée Gül,Roland H Stauber et al.
Mike Blueggel et al.
Nanotools in biomedicine open up novel applications in research, diagnostics, and clinical care. Here, nanobody technology has emerged as a powerful platform, offering advantages over conventional antibodies due to their small size, high st...
Upscaled wood@MoS2/Fe3O4 bulk catalysts for sustainable catalytic water pollutant removal [0.03%]
用于可持续催化去除水中污染物的增强型木材@二硫化钼/四氧化三铁主体催化剂
Lingli Zhu,Wei Ren,Ya Liu et al.
Lingli Zhu et al.
Advanced oxidation processes (AOPs) play a pivotal role in purifying contaminated water and securing drinking water safety. Transition metal-based materials are highly effective AOP catalysts, while their applications are limited by their p...
Unraveling interfacial interactions in reduced Nb2CTx/GO heterostructures for highly stable and transparent narrow-band photoelectrochemical photodetectors [0.03%]
解卷积还原Nb2CTx/GO异质结构界面相互作用用于高性能稳定透明窄带光电化学型光电探测器
Muhammad Abiyyu Kenichi Purbayanto,Subrata Ghosh,Dorota Moszczyńska et al.
Muhammad Abiyyu Kenichi Purbayanto et al.
The rapid advancement of nanomaterial-based thin-film processing has significantly contributed to the development of multifunctional optoelectronic devices. Among novel nanomaterials, MXenes, 2D transition metal carbides, nitrides, and carb...
A transferrin-targeted nanoplatform for MRI-guided visualization and potent suppression of tumors and pulmonary metastatic lesions [0.03%]
一种转铁蛋白靶向的纳米平台用于MRI引导下的肿瘤及肺转移病灶可视化和有效抑制
Liya Tian,Pengju Ma,Wenxiu Zhuang et al.
Liya Tian et al.
While targeted theranostics for cancer remains a pivotal research frontier, conventional ligand conjugation strategies exhibit persistent limitations in off-target accumulation and suboptimal tumor specificity, ultimately failing to achieve...
Introduction to the editor's choice collection on Nanoarchitectonics: fine structure construction in nanoscale [0.03%]
Nano构筑学:纳米尺度精细结构构建概述
Katsuhiko Ariga
Katsuhiko Ariga
Nanoscale Horizons Board member, Professor Katsuhiko Ariga (National Institute for Materials Science & The University of Tokyo), introduces this Editor's Choice collection in Nanoscale Horizons, Nanoscale and Nanoscale Advances, on Nanoarch...
Editorial
Nanoscale horizons. 2025 Jul 24. DOI:10.1039/d5nh90039e 2025
"Cell climbing stones" - varying the surfaces of electrospun nanofibers with protrusions as secondary structures to manipulate neural cell behaviors [0.03%]
“细胞攀爬石”——具有凸起的二级结构的电纺纳米纤维表面的构建及对神经细胞行为的影响
Yawen Wang,Xiaopei Zhang,Lijie Yao et al.
Yawen Wang et al.
Effective neural repair requires the precise regulation of neurite outgrowth and coordinated migration of neural stem cells (NSCs) and Schwann cells (SCs). The synergistic integration of topographical cues, chemical signals and electrical s...
Jingkuan Lyu,Jing Qian,Zhucheng Yang et al.
Jingkuan Lyu et al.
The rational design and synthesis of materials with tailored properties remains a long-standing goal in advanced materials science. Metal nanoclusters (MNCs), distinguished by their atomic precision and molecule-like properties-including di...
In situ interfacial engineering of 1D Bi2S3/2D g-C3N4 heterostructures for antibiotics degradation in aqueous media via light mediated peroxymonosulfate activation [0.03%]
基于原位界面工程的Bi₂S₃/g-C₃N₄异质结构复合材料活化过一硫酸盐降解水体中抗生素研究
Muhammad Mateen,Guanrong Chen,Na Guo et al.
Muhammad Mateen et al.
Interfacial engineering between metal sulfides (MS) and graphitic carbon nitride (g-C3N4) offers a promising strategy to design semiconductors for the efficient degradation of persistent water pollutants. However, conventional multi-step me...
Biomimetic nanozymes catalyze cascade reactions for enhanced tumor nanocatalytic therapy [0.03%]
仿生纳米酶催化级联反应用于增强肿瘤纳米催化治疗
Cong-Min Huo,Peng-Li Ding,Si-Ye Tong et al.
Cong-Min Huo et al.
Nano-catalytic therapy is an emerging tumor therapeutic strategy that has received considerable attention in recent years. This approach can convert endogenous hydrogen peroxide (H2O2) at the tumor site into highly toxic hydroxyl radicals (...