A Multifunctional Volatile Memristor Based on Organic-Inorganic Hybrid Ultrathin Films for Artificial Nociceptor and Edge/Reservoir Computing [0.03%]
基于有机-无机杂化超薄膜的多功能忆阻器在人造伤害感受器及边缘/存储计算中的应用研究
Ying-Jie Ma,Song Sun,Lin Zhu et al.
Ying-Jie Ma et al.
It is a challenge to endow intelligent robots with damage perception and forecast temporal data using nonvolatile memristor devices; however, volatile memristors can circumvent this issue owing to their unique ability of efficient encoding ...
Overcoming Sluggish Kinetics in Na4Fe3(PO4)2P2O7 via Synergistic Zr Doping and Iron Defect Engineering for High-Performance Sodium-Ion Batteries [0.03%]
通过协同掺杂锆和铁缺陷工程克服Na4Fe3(PO4)2P2O7的动力学迟缓性用于高性能钠离子电池
Yue Wang,Xue Zhang,Xuejie Wang et al.
Yue Wang et al.
The Na4Fe3(PO4)2P2O7 (NFPP) cathode material shows promising potential for sodium-ion batteries (SIBs) due to its cost-effectiveness and high theoretical capacity. However, the unavoidable formation of NaFePO4 impurities during synthesis an...
In Situ Construction of Upconverting Nano-Bacteria Biohybrids via Biomimetic Mineralization for Synergistic Antitumor Phototherapy [0.03%]
仿生矿化构建上转换纳米细菌生物杂合体用于协同抗肿瘤光热/近红外二区光动力联合治疗
Yi Huang,Yuwei Zhong,Hongfei Lu et al.
Yi Huang et al.
Nano-bacteria biohybrids, which combine the advantages of nanomaterials and bacterial cells, have emerged as innovative platforms for cancer treatment. Integrated with optical nanomaterials, these biohybrids enable effective phototherapy. T...
A Durable Superhydrophobic Interfacial Solar Evaporator Based on Metal-Phenolic Coordination Chemistry for Salt Resistance [0.03%]
基于金属酚配位化学的耐盐超疏水界面太阳能蒸发器
Wanze Wu,Junfei Liao,Kanghu Yang et al.
Wanze Wu et al.
Janus interfacial evaporators driven by solar energy are very promising in seawater desalination. However, salt blocking has greatly limited their practical applications. In this current study, the issue of salt accumulation was addressed t...
Strategies and Prospects for the Design of Inorganic Ceramic Electrolyte for High-Performance All-Solid-State Lithium-Ion Batteries [0.03%]
高性能全固态锂电池用无机陶瓷电解质的设计策略与展望
Kang-Rui Ren,Zu-Xian Chen,Bi-Chao Jia et al.
Kang-Rui Ren et al.
In order to enhance the energy density of lithium-ion batteries (LIBs), the development of solid-state electrolytes (SSEs) has become imperative. In particular, inorganic SSEs are gaining attention due to their inherent merits, including no...
Emerging Selective Ion Transport via 2D Confined Space for the Innovations in Separation and Energy Technologies [0.03%]
二维限域空间中新兴的离子选择性输运及其在分离和能源技术中的应用创新
Bin Zhao,Haoren Liu,Yuying Hao et al.
Bin Zhao et al.
Ion transport technology is pivotal in energy and environmental applications, yet traditional bulk materials, such as ion exchange membranes (IEMs) and porous ceramics, face limitations in selectivity, mechanical stability, and adaptability...
Design, Synthesis, and Applications of Emerging Zeolitic Tetrazolate Frameworks [0.03%]
新兴分子筛四氮唑框架的 design、合成和应用
Shafeeq Sarfudeen,Mebin Varghese,Tamas Panda
Shafeeq Sarfudeen
The development of porous materials with extended cage-like architectures remains a central challenge in chemistry and materials science. Zeolitic tetrazolate frameworks (ZTFs) represent an emerging class of metal-organic frameworks (MOFs) ...
Correction to "Carbon Dots from Lycium barbarum Attenuate Radiation-Induced Bone Injury by inhibiting Senescence via METTL3/Clip3 in an m6A-Dependent Manner" [0.03%]
枸杞碳点通过METTL3/Clip3依赖m6A方式抑制衰老来缓解辐射诱导骨损伤的修正
Zhiyong Guo,Zilin Wang,Yige Liu et al.
Zhiyong Guo et al.
Published Erratum
ACS applied materials & interfaces. 2025 Sep 25. DOI:10.1021/acsami.5c18419 2025
Dual-Single-Atom Ruthenium-Copper Anchored on Magnesium-Aluminum Layered Double Hydroxide Enhancing Dual-Enzymatic Activities for Synergistic Anti-Liver Cancer Therapy [0.03%]
双原子钌-铜催化剂锚定镁铝层状双羟基氢氧化物上用于增强类酶活性的协同抗肝癌治疗
Shuairu Zhu,Hongwei Xu,Mei Yang et al.
Shuairu Zhu et al.
Single-atom nanozymes (SANs), with their tunable metal active centers, enable the modulation of various enzyme activities for antitumor therapy. However, these materials encounter substantial challenges in cancer therapy owing to their limi...
Employing S(-I)/S(-II) Redox Chemistry in Quasi-1D Niobium Trisulfide-Graphene Cathodes for High-Capacity Magnesium-Lithium Hybrid Ion Batteries [0.03%]
基于准一维氧化铌三硫化物/石墨烯正极的高能量镁锂杂化离子电池中的S(-I)/S(-II)氧化还原反应
Pengcheng Jing,Atsushi Inoishi,Eiichi Kobayashi et al.
Pengcheng Jing et al.
Magnesium-lithium hybrid ion batteries (MLIBs) offer a compelling alternative to traditional lithium-ion batteries (LIBs) due to their enhanced safety, abundant magnesium resources, and high theoretical capacities. However, their practical ...