Conductance of metal superatom-based molecular wires influenced by nanoscale effects [0.03%]
纳米效应调控的金属超原子分子导线电导性质研究
Famin Yu,Wei Feng,Baiqiang Liu et al.
Famin Yu et al.
High-conductance molecular wires are critical for advancing molecular-scale electronics, yet their performance typically diminishes exponentially with length. Here, we reveal an unconventional phenomenon where nanoscale molecular wires cons...
Overview and SWOT analysis of nano-ferroptosis therapy for cancers [0.03%]
癌症纳米 ferroptosis治疗的综述与SWOT分析
Qian Chen,Junli Zhu,Junhuang Jiang et al.
Qian Chen et al.
Cancer remains one of the leading causes of death worldwide. In the search for effective treatments, conventional therapies such as chemotherapy, radiotherapy, and immunotherapy have emerged as mainstream options. However, these therapies o...
DNA-triggered activation of aptamer-neutralized enzyme for in situ formation of injectable hydrogel [0.03%]
基于DNA触发的酶活性定点激活型体内原位形成注射型水凝胶体系
Connie Wen,Yixun Wang,Kyungsene Lee et al.
Connie Wen et al.
Injectable hydrogels have been widely studied for the embolization of vascular malformations and the control of bleeding in hemorrhages. An ideal injectable hydrogel in these applications needs to form once contacting with the blood compone...
Toward next-generation smart medical care wearables: where microfluidics meet microneedles [0.03%]
微流控与微针技术结合的下一代智能医疗保健可穿戴设备展望
Xin Li,Shuoshuo Wan,Tamim Suza Pronay et al.
Xin Li et al.
The integration of microneedles (MNs) with microfluidic platforms has emerged as a transformative approach for developing next-generation smart wearable devices aimed at precise drug delivery and real-time physiological monitoring. This rev...
A nanoscale quality control framework for assessing FFPE DNA integrity in cancer research [0.03%]
用于评估癌症研究中福尔马林固定石蜡包埋DNA完整性的纳米质量控制框架
Zixuan Huang,Yunpei Si,Yi Zhang et al.
Zixuan Huang et al.
Formalin-fixed paraffin-embedded (FFPE) samples are widely used in cancer research and clinical diagnostics for preserving tissue morphology and enabling long-term storage. However, FFPE-induced DNA degradation, crosslinking, and inconsiste...
Nucleic acid-based chiral nanostructures and their biomedical applications [0.03%]
基于核酸的手性纳米结构及其生物医学应用
Shuhui Yu,Yiming Xie,Yunfei Jiao et al.
Shuhui Yu et al.
Chirality is a universal phenomenon in nature. Chiral structures refer to two objects that are mirror images and cannot be superimposed on each other by any kind of translation or rotation. Nucleic acids, including DNA and RNA, are chiral s...
Strong electric field enhancement near an amorphous silicon metasurface with non-vertical symmetry [0.03%]
非垂直对称无定形硅元表面附近的强电场局域化效应
Zi-Jian Qu,Wen-Juan Shi,Zhao-Lu Wang et al.
Zi-Jian Qu et al.
In this work, we propose a novel method to our knowledge for realizing a leakage mode with a super flat band through the modulation of two Friedrich-Wintgen bound states in the continuum (FW BICs) of a non-vertical symmetry metasurface. Thi...
Tattoo electrodes in bioelectronics: a pathway to next-generation wearable systems [0.03%]
纹身电极在生物电子学中的应用:迈向下一代可穿戴系统之路
Jinwoo Lee,Seung Hwan Ko
Jinwoo Lee
Tattoo-based electronics have emerged as a transformative platform for next-generation wearable bioelectronics. Unlike conventional wearable devices, which rely on substrates, tattoo electrodes are directly formed or transferred onto the sk...
Salt-bridge mediated cooperativity and mechanical stabilization of tandem spectrin repeats [0.03%]
盐介导的串联血影蛋白重复序列间的协同作用和机械稳定作用
Yanzhong Wang,Yuhang Zhang,Miao Yu et al.
Yanzhong Wang et al.
Spectrin superfamily proteins play essential roles in cells by interlinking various cytoskeletal components and bridging the cytoskeleton to both the cell membrane and the nucleus. Characterized by the spectrin repeat (SR) domain, this supe...
Colloidal synthesis and etching yield monodisperse plasmonic quasi-spherical Mg nanoparticles [0.03%]
胶体合成和腐蚀制备单分散等离子体准球形镁纳米颗粒
Andrey Ten,Christina Boukouvala,Vladimir Lomonosov et al.
Andrey Ten et al.
Mg is a low-cost, earth-abundant, and biocompatible plasmonic metal. Fine tuning of its optical response, required for successful light-harvesting applications, can be achieved by controlling Mg nanoparticle size and shape. Mg's hexagonal c...