Co0.6Fe0.4O-Co1.4Fe1.6O4 core-shell nanoparticles with colossal exchange bias [0.03%]
具有巨磁交换偏置的Co0.6Fe0.4O@Co1.4Fe1.6O4 核壳纳米颗粒
Samyog Adhikari,Roger D Johnson,Pascal Manuel et al.
Samyog Adhikari et al.
The exchange bias (EB) effect is widely utilized in spintronics with 2D materials like thin films. Exploring the EB effect in nanoparticles opens up tremendous opportunities, such as miniaturization of devices, enhanced efficiency, and tuna...
Zhaoxiang Li,Yuanyi Zhang,Yueyue Chen
Zhaoxiang Li
Nanoplastics (NPs) are widespread in ecosystems, and their biohazards are of increasing concern. The hazards posed by NPs to aquatic and terrestrial plants as well as to aquatic animals have been extensively studied; however, their impact o...
Pinocytosis inhibitory nanoparticles enhance aPD-1 antibody delivery and efficacy while avoiding toxicity in the treatment of solid tumors [0.03%]
吞噬细胞内吞抑制性纳米颗粒增强抗体药物_delivery_和疗效并避免毒性在实体瘤治疗中的作用
Stephanie R Zelenetz,Haeik Park,Wenan Qiang et al.
Stephanie R Zelenetz et al.
While monoclonal antibodies have significantly improved cancer treatment, their accumulation in off-target tissues not only limits efficacy, but also induces toxicity. A major contributor to this problem is the mononuclear phagocyte system ...
Unravelling quantum dot-molecule interactions for π-conjugated ligands: insights into binding and anchoring group effects [0.03%]
解开π共轭配体的量子点-分子相互作用:结合和锚定效应的见解
Yinon Deree,Adar Levi,Xiang Li et al.
Yinon Deree et al.
Quantum dots (QDs) coated with π-conjugated ligands display triplet energy transfer (TET), which opens the path for photon upconversion via QD photosensitization. Herein we study the effect of the ligand binding and its orientation on the ...
Tannic acid-mediated surface engineering of CNTs for enhanced bifunctional oxygen electrocatalysis [0.03%]
单宁酸介导的CNT表面工程用于增强双功能氧电催化性能
Xiangmin Tang,Luyao Zou,Xiaopeng Li et al.
Xiangmin Tang et al.
Developing stable and efficient bifunctional electrocatalysts for oxygen reduction and evolution reactions is essential for rechargeable metal-air batteries. Here, we reported a facile surface modification strategy of carbon nanotubes (CNTs...
Xinmiao Kang,Yu Liu,Dandan Tian et al.
Xinmiao Kang et al.
Molecular probes are essential for analytical detection but encounter major limitations, such as a limited dynamic range, the need for probe concentrations to exceed target concentrations, and restricted reusability. These issues stem from ...
Confined nanoarchitectonics for nano-reactors: in situ characterization and tracking systems at the nanoscale [0.03%]
纳米反应器的限域纳米构筑及纳米尺度下的原位表征与监测体系
Na Kong,Katsuhiko Ariga
Na Kong
Nanoscale confinement environments, such as surface-confined interfaces, porous nanostructures, nanopores, and hollow nanoparticles, are increasingly recognized as powerful platforms for controlling and enhancing chemical reactions. Confine...
The gold nanoparticle-lipid membrane synergy for nanomedical applications [0.03%]
金纳米粒子-脂质膜协同效应在纳米医药中的应用
Lucrezia Caselli,Lucia Paolini,Wye-Khay Fong et al.
Lucrezia Caselli et al.
The integration of gold nanoparticles (AuNPs) with lipid bilayers gives rise to powerful synergistic effects arising from nanoscale interactions. Precise control over these interactions enables the rational design of hybrid AuNP-lipid membr...
G-quadruplex-driven molecular disassembly and type I-to-type II photophysical conversion of a heavy-atom-free photosensitizer for site-specific oxidative damage [0.03%]
一种不含重金属的光敏剂通过G-四联体驱动的分子解离和I型到II型光物理转换在特定位置造成氧化损伤
Karolina Saczuk,Maria V Cottini,Marta Dudek et al.
Karolina Saczuk et al.
G-quadruplex (G4)-targeted photosensitizers (PSs) are advancing precision oncology by confining DNA damage to malignant cells while sparing healthy tissue. Yet, molecular-level studies on the mechanisms and dynamics of G4 structure damage u...
Hyperconjugated linker design in giant dimeric donors enabled superior short-circuit current in organic solar cells [0.03%]
超共轭连接器设计在巨二聚供体中实现了有机太阳能电池的优异短路电流
Caixuan Wang,Mengying Wu,Dan Deng et al.
Caixuan Wang et al.
Giant dimeric donors possess definite chemical structures and regulatable molecular skeletons and are expected to become alternative photovoltaic materials for polymer donors with batch differences. However, the design of giant dimeric dono...