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At present, it is still a great challenge to synthesize refractory Pt‐based electrocatalysts with excellent active specific surface area, specific activity, and stability by a simple method. Here, a superfast and solvent‐free microwave strategy is reported to synthesize refractory ultrafine (≈3 nm) Pt–lanthanide@Ketjen Black (PtM@KB, M = La, Gd, Tb, Er, Tm, and Yb) alloy with densely packed as efficient...
The increasing resistance risks of conventional antibiotic abuse and the formed biofilm on the surface of wounds have been demonstrated to be the main problems for bacteria‐caused infections and unsuccessful wound healing. Treatment by reactive oxygen species, such as the commercial H2O2, is a feasible way to solve those problems, but limits in its lower efficiency. Herein, an ionic covalent‐organic...
Polarization behaviors of no‐magnetic shell dominate the dielectric properties for core–shell magnetic‐carbon composites, which faces a huge challenge. Herein, a single atom‐doping strategy is established to adjust local electric potential in the metal‐organic framework (MOF)‐derived carbon shell. Benefiting from the confined transformation, single Zn atoms and N atoms are evenly distributed in the...
Magnetic‐dielectric property plays a critical significance for the functional expression toward advanced materials. Within nanoscale, the simultaneous regulation of the electrical and magnetic properties of electromagnetic (EM) wave absorption materials faces huge challenges. Herein, using the metal‐organic frameworks (MOF) as templates, highly‐dispersed ZnO and Co nanoparticles are uniformly confined...
In article number 2100006, Wen Sun, Wen‐fei Dong, Dan Shao, and co‐workers fabricate diselenide‐bridged mesoporous organosilica nanoparticles for coordination and redox dual‐responsive delivery of chemotherapeutic ruthenium compound KP1339. Such immunogenic cell death nano‐amplifier performed robust suppression on primary and distant tumor growth, as well as pulmonary metastasis of breast cancer with...
Amplifying the chemotherapy‐driven immunogenic cell death (ICD) for efficient and safe cancer chemoimmunotherapy remains a challenge. Here, a potential ICD nanoamplifier containing diselenide‐bridged mesoporous organosilica nanoparticles (MONs) and chemotherapeutic ruthenium compound (KP1339) to achieve cancer chemoimmunotherapy is tailored. KP1339‐loaded MONs show controlled drug release profiles...
The pyrrhotite Fe7S8 with mixed Fe‐valence possesses high theoretical capacity, high conductivity, low discharge/charge voltage plateaus, and superior redox reversibility but suffers from structural degradation upon (de)potassiation process due to severe volume variations. Herein, to conquer this issue, a novel hierarchical architecture of confining nano‐Fe7S8 in carbon nanotubes covalently bonded...
Magnetic nanomaterials are a promising class of contrast agents for magnetic resonance imaging (MRI). However, their poor stability and low relaxivity are major challenges hindering their clinical applications. In this study, magnetic theranostic nanoagents based on polydopamine‐modified Fe3O4 (Fe3O4@PDA) nanocomposites are fabricated for MRI‐guided photothermal therapy (PTT) cancer treatments. Their...
Three‐dimensional (3D) materials assembled by 2D layered lamella can provide abundant interfaces which are greatly advantageous for high‐performance microwave absorbers. Herein, accordion‐like CeO2−x/reduced graphene oxide (CeO2−x/RGO) hybrid materials can be successfully synthesized by a solvothermal and hydrothermal method, which are composed of laminated RGO sheets and confined CeO2−x nanoparticles...
Electromagnetic (EM) wave absorption materials have attracted considerable attention because of EM wave pollution caused by the proliferation of electronic communication devices. One‐dimentional (1D) structural magnetic metals have potential as EM absorption materials. However, fabricating 1D core–shell bimetallic magnetic species is a significant challenge. Herein, 1D core–shell bimetallic magnetic...
Tumor vasculature and cancer stem cells (CSCs) accelerate the development of metastatic renal cancer. Dual inhibition of vascular endothelium and CSCs is still a challenge due to their different pathological features. Herein, a transformable dual‐inhibition system (TDS) based on a self‐assembly peptide is proposed to construct nanofibrous barriers on the cell membrane in situ, which contributes to...
In article number 2004548, Lei Wang, Ziqi Wang, Hao Wang, Wanhai Xu, and co‐workers propose a transformable dual‐inhibition system (TDS) based on a self‐assembly peptide to reduce metastasis of renal cancer via the inhibition of neovascular endothelial cells and cancer stem cells simultaneously. The TDS has great value in suppressing renal cancer metastasis. Additionally, this newly developed TDS...
Cells, sophisticated membrane‐bound units that contain the fundamental molecules of life, provide a precious library for inspiration and motivation for both society and academia. Scientists from various disciplines have made great endeavors toward the understanding of the cellular evolution by engineering artificial counterparts (protocells) that mimic or initiate structural or functional cellular...
Currently, cell membrane is always utilized for the construction of biomimetic nanoparticles. By contrast, mimicking the intracellular activity seems more meaningful. Inspired by the specific killing mechanism of deoxy‐hemoglobin (Hb) dependent drug (RRx‐001) in hypoxic red blood cells (RBC), this work aims to develop an inner and outer RBC‐biomimetic antitumor nanoplatform that replicates both membrane...
Metal–organic framework (MOF) is highly desirable as a functional material owing to its low density, tunable pore size, and diversity of coordination formation, but limited by the poor dielectric properties. Herein, by controlling the solvent and mole ratio of cobalt/linker, multidimension‐controllable MOF‐derived nitrogen‐doped carbon materials exhibit tunable morphology from sheet‐, flower‐, cube‐,...
Local tumor recurrence after surgical resection is a critical concern in cancer therapy, and the current treatments, such as postsurgical chemotherapy, still show undesired side effects. Here a nonimplant strategy (transformation induced localization, TIL) is presented to in situ construct long‐term retentive drug depots, wherein the sustained drug release from fibrous drug depots results in highly...
Core@shell structures have been attracting extensive attention to boost microwave absorption (MA) performance due to the unique interfacial polarization. However, it still remains a challenge to synthesize sophisticated 1D semiconductor‐based materials with excellent MA competence. Herein, a hierarchical cable‐like TiO2@Fe3O4@PPy is fabricated by a sequential process of solvothermal treatment and...
In article number 1803246, Lei Wang and co‐workers develop a novel catalyst for Li–CO2 batteries. RuP2 nanoparticles (NPs) are highly dispersed on the surface of N, P dual‐doped carbon films (RuP2‐NPCF). The Li–CO2 battery with RuP2‐NPCF cathode exhibits super‐high capacity, low overpotential, and long cycle performance.
Rechargeable Li–CO2 batteries have attracted worldwide attention due to the capability of CO2 capture and superhigh energy density. However, they still suffer from poor cycling performance and huge overpotential. Thus, it is essential to explore highly efficient catalysts to improve the electrochemical performance of Li–CO2 batteries. Here, phytic acid (PA)‐cross‐linked ruthenium complexes and melamine...
A novel strategy is used to design large‐scale polarized carbon‐based dielectric composites with sufficient interaction to electromagnetic waves. Highly uniform polar zinc oxide arrays are vertically grown on a flexible conductive carbon cloth substrate (CC@ZnO) via an in situ orientation growth process. Anion regulation is found to be a key factor to the morphology of hierarchical ZnO arrays including...
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