【标题速读】【Advmat】【2022年】【2月】
声明:本专栏主要对生命科学领域的一些期刊文章标题进行翻译,所有内容均由本人手工整理翻译。由于本人专业为生物分析相关,其他领域如果出现翻译错误请谅解。
Single-Core Double Emulsions
The fabrication of single-core double emulsions typically requires sophisticated microfluidic devices and meticulous operation protocols. In article number 2107338, Nicolas Vogel and co-workers develop a convenient method to produce such tailored double emulsions with defined droplet structure using only vortex mixing. This fast, low-cost and high-yield method improves the accessibility of droplet-based materials.
单核双乳
单核双乳液的制造通常需要复杂的微流体装置和细致的操作方案。 在文章编号 2107338 中,Nicolas Vogel 及其同事开发了一种仅使用涡流混合即可生产具有特定液滴结构的定制双乳液的便捷方法。 这种快速、低成本和高产量的方法提高了基于液滴的材料的可及性。
Hetero-MXenes
Endogenous heterojunction of 2D MXenes with unique structure shows inspiring potential in energy applications. In article number 2108809, Li Song and co-workers successfully synthesize unique endogenous hetero-MXenes of amorphous MoS2 coupling with fluoride-free Mo2CTx directly from Mo2Ga2C MAX via an optimal in situ hydrothermal strategy. The distinctive morphology and heterojunction structure endow the hetero-MXenes with extraordinary structural stability and an optimized Li+-storage mechanism, with improved charge transport and Li+-adsorption capabilities.
异质MXenes
具有独特结构的二维 MXene 的内源异质结在能源应用中显示出令人鼓舞的潜力。 在文章编号 2108809 中,Li Song 及其同事通过最佳原位水热策略直接从 Mo2Ga2C MAX 成功合成了无定形 MoS2 与无氟化物 Mo2CTx 偶联的独特内源杂 MXene。 独特的形貌和异质结结构赋予异质MXenes非凡的结构稳定性和优化的Li+存储机制,以及改进的电荷传输和Li+吸附能力。
Pyroelectric Sensors
Hafnium oxide has gained great attention for its numerous multifunctional features. In article number 2106881, Mohit Kumar and Hyungtak Seo report a proof-of-concept HfO2-based self-powered, ultrafast (≈60 μs) infrared pyroelectric sensor with a responsivity of up to 68 μA W−1. The regulated suspension and reestablishment of the self-biased pyro-photocurrent response with a short electric pulse is demonstrated.
热释电传感器
氧化铪因其众多的多功能特性而受到广泛关注。 在第 2106881 号文章中,Mohit Kumar 和 Hyungtak Seo 报告了一种基于 HfO2 的概念验证自供电超快(约 60 μs)红外热释电传感器,其响应度高达 68 μA W−1。 证明了通过短电脉冲调节的自偏置热光电流响应的暂停和重建。
Tissue Adhesives
In article number 2105338, Donghee Son, Changhyun Pang, and co-workers report an electrostatic–mechanical synergistic multiscale tissue adhesive for sustainable residue-free bioelectronics interfaces. To deduce the mechanism, a thermodynamic model based on a tailored elastomer–hydrogel combinatory adhesive architecture is proposed. This patch also successfully demonstrates reliable real-time measurements of electrophysiological signals generated by various tissues ranging from rodent sciatic nerve, muscle, brain, and human skin.
组织粘合剂
在第 2105338 号文章中,Donghee Son、Changhyun Pang 及其同事报告了一种用于可持续无残留生物电子界面的静电-机械协同多尺度组织粘合剂。 为了推论该机制,提出了一种基于定制弹性体-水凝胶组合粘合剂结构的热力学模型。 该贴片还成功地展示了对啮齿动物坐骨神经、肌肉、大脑和人类皮肤等各种组织产生的电生理信号的可靠实时测量。
Interfacial Atomic Configurations
In article number 2106814, Kaihui Liu, Xin-Zheng Li, Xinqiang Wang, and co-workers profile a novel perspective of the lattice arrangement (polarity) manipulation of a quasi-van der Waals epitaxial hexagonal III-nitride film on graphene by interfacial atomic configuration engineering. Through using atomic O preirradiation and a specific supply sequence of Ga and N atoms to form the C–O–N–Ga(3) and C–O–Ga–N(3) configurations, N- and Ga-lattice polarity GaN films are achieved on transferred graphene, respectively.
界面原子构型
在第 2106814 号文章中,Kaihui Liu、Xin-Zheng Li、Xinqiang Wang 及其同事介绍了通过界面原子对石墨烯上的准范德华外延六方 III 族氮化物薄膜进行晶格排列(极性)操控的新颖视角。 配置工程。 通过使用原子 O 预辐照以及特定的 Ga 和 N 原子供应顺序,形成 C–O–N–Ga(3) 和 C–O–Ga–N(3) 构型,N 和 Ga 晶格极性 GaN 薄膜 分别在转移的石墨烯上实现。
Metabolic Glycoengineering
Immune checkpoint ligand functionalized Schwann cells have great potential to treat multiple sclerosis. In article number 2107392, Kin Man Au, Andrew Z. Wang, and Roland Tisch bioengineer Schwann cells functionalized with programmed death ligand 1 (PD-L1) and cluster of differentiation 86 (CD86) to prevent and ameliorate established mouse models of chronic and relapsing–remitting experimental autoimmune encephalomyelitis by promoting the development of tolerogenic neuroantigen-specific regulatory T cells.
代谢糖工程
免疫检查点配体功能化雪旺细胞具有治疗多发性硬化症的巨大潜力。 在文章编号 2107392 中,Kin Man Au、Andrew Z. Wang 和 Roland Tisch 生物工程师利用程序性死亡配体 1 (PD-L1) 和分化簇 86 (CD86) 对雪旺细胞进行功能化,以预防和改善已建立的慢性和复发性小鼠模型 – 通过促进耐受性神经抗原特异性调节 T 细胞的发育来缓解实验性自身免疫性脑脊髓炎。
2D Photoconductivity
Light–matter interaction under different oxygen pressures can reversibly manipulate photoconductivity from surface oxygen vacancies of perovskite stannate semiconductors. In article number 2107650, utilizing a surface-selective photochemical reaction, Junwoo Son and co-workers report that ultraviolet-excited electron–hole pairs of a perovskite compound under low oxygen pressure accelerate the unprecedented formation of spatially confined and optically programmable in-gap states induced by oxygen vacancies at room temperature.
二维光电导
不同氧压下的光与物质相互作用可以可逆地调控钙钛矿锡酸盐半导体表面氧空位的光电导性。 在第 2107650 篇文章中,Junwoo Son 及其同事利用表面选择性光化学反应报告称,在低氧压力下,钙钛矿化合物的紫外线激发电子空穴对加速了前所未有的空间受限和光学可编程带隙态的形成 由室温下的氧空位引起。
Hyperbolic Phonon Polaritons
Launching, controlling, and focusing of in-plane hyperbolic phonon polaritons in van der Waals α-MoO3 with geometrically designed curved gold plasmonic antennas are realized by Huanjun Chen, Shaozhi Deng, and co-workers in article number 2104164. By engineering the curvature of the antenna extremity, it is possible to tune the focal lengths and lateral sizes of the focal points. This study can open up new avenues for planar nanophotonic devices in the mid-infrared region.
双曲声子极化子
Huanjun Chen、Shaozhi Deng 及其同事在文章编号 2104164 中实现了范德华 α-MoO3 中面内双曲声子极化激元的发射、控制和聚焦,以及几何设计的弯曲金等离子体天线。 在天线末端,可以调整焦点的焦距和横向尺寸。 这项研究可以为中红外区域的平面纳米光子器件开辟新途径。
2D Janus Monolayers
In article number 2106222, Mete Atature, Sefaattin Tongay, and co-workers use an in situ deterministic plasma technique to enable the synthesis of high-quality excitonic grade 2D SWSe, SMoSe, and other 2D Janus layers. Integrated spectrometers allow for the collection of structural, optical, and phononic properties during the growth. Through time-resolved studies, the team offers the first insights into the growth process and minute control provides the first with excitonic grade Janus layers.
2D Janus 单层膜
在文章编号 2106222 中,Mete Atature、Sefaattin Tongay 和同事使用原位确定性等离子体技术来合成高质量激子级 2D SWSe、SMoSe 和其他 2D Janus 层。 集成光谱仪可以在生长过程中收集结构、光学和声子特性。 通过时间分辨研究,该团队首次深入了解了生长过程,而分钟控制则提供了第一个激子级 Janus 层。
Tunable Metamaterials
In article number 2109032, Stephan W. Anderson, Xin Zhang, and co-workers exploit auxetic structures with a negative Poisson's ratio, exhibiting counterintuitive behaviors, to design mechanically tunable metamaterials in both planar and hemispherical configurations operating at megahertz (MHz) frequencies. Optimized for their application to magnetic resonance imaging (MRI), the proposed tunable metamaterials serve to enhance local magnetic fields and increase the signal-to-noise ratio in magnetic resonance image around 4.5 times.
可调谐超材料
在第 2109032 号文章中,Stephan W. Anderson、Xin Zhang 及其同事利用具有负泊松比的拉胀结构(表现出违反直觉的行为)来设计在兆赫 (MHz) 频率下工作的平面和半球形配置的机械可调超材料。 所提出的可调谐超材料针对磁共振成像 (MRI) 的应用进行了优化,可增强局部磁场并将磁共振图像的信噪比提高约 4.5 倍。
Graphene
The high hydrophilic nature of pristine graphene with an extremely low water contact angle of ≈30° is confirmed by Sheng Meng, Li Lin, Hailin Peng, Zhongfan Liu, and co-workers in article number 2103620, who use suspended, superclean graphene membranes to exclude interference from the substrate and from contamination.
石墨烯
盛萌、李林、彭海林、刘忠凡及其同事在文章编号2103620中证实了原始石墨烯的高亲水性,其水接触角极低,约为30°,他们使用悬浮的超清洁石墨烯膜来排除基板和污染的干扰。
Orientation-Dependent Color
In article number 2104874, Ahmad Rafsanjani, André R. Studart, and co-workers report soft architectured composites that display striking orientation-dependent color changes when stretched. The color change results from the rotation of pre-aligned reflective coated platelets embedded in a soft polymer matrix in a well-defined architecture. A soft robotic actuator that turns from fully opaque to reflective green upon inflation is illustrated.
方向相关的颜色
在第 2104874 号文章中,Ahmad Rafsanjani、André R. Studart 及其同事报告了软结构复合材料,该复合材料在拉伸时会显示出惊人的与方向相关的颜色变化。 颜色的变化是由预排列的反射涂层薄片的旋转引起的,这些薄片以明确的结构嵌入软聚合物基质中。 图中展示了一个软机器人执行器,在充气时从完全不透明变为反光绿色。
Spin-State Switching
In article number 2105468, Karl Ridier, Gábor Molnár, Azzedine Bousseksou, and co-workers dissect the spatiotemporal dynamics of the spin transition in crystals of [Fe(HB(1,2,4-triazol-1-yl)3)2], using pump–probe optical microscopy. On the sub-millisecond timescale, the response of the crystal to the laser pulse involves a homogeneous and gradual molecular conversion process, as if there were no hysteresis loop, whereas the macroscopic switching is delayed to the millisecond timescale. These results provide guidance for achieving efficient photocontrol of bistable materials. Image design credit: Santiago Piedrahita-Bello.
自旋态转换
在第 2105468 号文章中,Karl Ridier、Gábor Molnár、Azzedine Bouseksou 及其同事剖析了 [Fe(HB(1,2,4-triazol-1-yl)3)2] 晶体中自旋跃迁的时空动力学 ,使用泵浦探针光学显微镜。 在亚毫秒时间尺度上,晶体对激光脉冲的响应涉及均匀且渐进的分子转换过程,就好像没有磁滞回线一样,而宏观切换则延迟到毫秒时间尺度。 这些结果为实现双稳态材料的高效光控制提供了指导。 图像设计来源:Santiago Piedrahita-Bello。
Wearable Healthcare Devices
Convenient breath monitoring via wearable devices is helpful for personal healthcare, especially during the COVID-19 pandemic. In article number 2107758, Kenjiro Fukuda, Takao Someya, and co-workers develop a wearable smart face mask based on an ultrathin self-powered pressure sensor with high output ability, and various breath conditions from multiple testers are wirelessly detected and analyzed.
可穿戴医疗保健设备
通过可穿戴设备进行便捷的呼吸监测有助于个人医疗保健,尤其是在 COVID-19 大流行期间。 在文章编号 2107758 中,Kenjiro Fukuda、Takao Someya 及其同事开发了一种基于具有高输出能力的超薄自供电压力传感器的可穿戴智能口罩,可以无线检测和分析来自多个测试仪的各种呼吸状况。
Soft Robots
The muscle-like dielectric elastomer actuators developed by Yufeng Chen and co-workers in article number 2106757 lead to insect-scale flapping-wing aerial soft robots that resemble the size, weight, and performance of honeybees in nature. The actuators consist of soft elastomers and carbon nanotube electrodes, and they are made through novel fabrication methods to significantly reduce operating voltage and improve lifetime. Cover image credit: Photography and art by Julian Kamzol and Sampson Wilcox.
软体机器人
Yufeng Chen 及其同事在文章编号 2106757 中开发的类肌肉介电弹性体致动器可产生昆虫规模的扑翼空中软机器人,其尺寸、重量和性能类似于自然界中蜜蜂的大小、重量和性能。 该执行器由软弹性体和碳纳米管电极组成,采用新颖的制造方法制成,可显着降低工作电压并延长使用寿命。 封面图片来源:Julian Kamzol 和 Sampson Wilcox 的摄影和艺术。
Water Purification
In article number 2107400, Suojiang Zhang, Dan Wang, and co-workers report an ultrastable amorphous Ta2O5/C nanocomposite with a hollow multishelled structure for solar evaporation, which results in highly efficient photoabsorption, photothermal conversion, and promoted water transport. Thus, a superfast evaporation speed of 4.02 kg m−2 h−1 is achieved. Importantly, the ion concentration meets the World Health Organization's drinking-water standard after purification, even under extreme conditions.
净水
在第 2107400 号文章中,Suo Jiang Chang、Dan Wang 及其同事报道了一种具有中空多壳结构的超稳定非晶 Ta2O5/C 纳米复合材料,用于太阳能蒸发,可实现高效的光吸收、光热转换并促进水传输。 因此,实现了4.02 kg m−2 h−1 的超快蒸发速度。 重要的是,即使在极端条件下,净化后的离子浓度也符合世界卫生组织的饮用水标准。
2D Materials
Van der Waals (vdW) encapsulation is one of the most promising approaches to improve the stability and reliability of 2D-materials-based devices. So far, a scalable vdW encapsulation approach through complementary metal–oxide-semiconductor (CMOS)-compatible processes still remains elusive. In article number 2106041, Kailang Liu, Tianyou Zhai, and co-workers present a scalable vdW encapsulation method based on inorganic molecular crystals, through which the ambient stability of a series of 2D materials is significantly improved by tens of times.
二维材料
范德华 (vdW) 封装是提高二维材料器件稳定性和可靠性的最有前途的方法之一。 到目前为止,通过互补金属氧化物半导体 (CMOS) 兼容工艺实现可扩展的 vdW 封装方法仍然难以实现。 在第2106041号文章中,Kailang Liu、Tianyou Zhai及其同事提出了一种基于无机分子晶体的可扩展vdW封装方法,通过该方法,一系列二维材料的环境稳定性显着提高了数十倍。
Potassium-Metal Batteries
In article number 2105855, Pengcheng Liu, David Mitlin, and co-workers report a multifunctional separator for potassium-metal batteries. The cover depicts two foxes playfully hopping across an ancient arctic river while carrying glowing ions in their mouths. The potassiphilic aluminum fluoride crystals, which are the key functional aspect of the separator, are the crystallographic ice sheets regularly arranged on the surface. The frigid water beneath represents the electrolyte. In the background are frozen mountains, which are the potassium-metal dendrites that would form without the functional separator.
钾金属电池
在第 2105855 号文章中,Peng Cheng Liu、David Mitlin 及其同事报告了一种用于钾金属电池的多功能隔膜。 封面描绘了两只狐狸顽皮地跳跃穿过一条古老的北极河流,嘴里叼着发光的离子。 亲钾氟化铝晶体是分离器的关键功能部分,是规则排列在表面上的晶体冰片。 下面的冷水代表电解质。 背景是冰冻的山脉,它们是在没有功能分离器的情况下形成的钾金属枝晶。
2D Perovskites
Cs2Pb(SCN)2Br2, an inorganic-cation pseudo-halide 2D phase perovskite single crystal, is grown by a simple antisolvent vapor-assisted crystallization method, as reported by Chu-Chen Chueh, Anita W. Y. Ho-Baillie, and co-workers in article number 2104782. Cs2Pb(SCN)2Br2 exhibits a reversible first-order phase transformation to CsPbBr2 at 450 K and has a low exciton binding energy amongst the 2D perovskites. Demonstration for photodetector application shows respectable responsivity and detectivity.
二维钙钛矿
Cs2Pb(SCN)2Br2 是一种无机阳离子拟卤化物二维相钙钛矿单晶,由 Chu-Chen Chueh、Anita W. Y. Ho-Baillie 及其同事在 文章编号 2104782。Cs2Pb(SCN)2Br2 在 450 K 时表现出可逆的一级相变到 CsPbBr2,并且在二维钙钛矿中具有较低的激子结合能。 光电探测器应用演示显示出令人尊敬的响应度和探测能力。
Graphene Biosensors
In article 2106666, Xiaoyan Zhang, Grégory F. Schneider, Wangyang Fu, and co-workers demonstrate graphene biosensors operating at ultrahigh frequencies, where the conductivity of high-salt solutions and thus the ionic screening is fully cancelled. Dielectric-modulated detection of the binding of streptavidin molecules to biotin molecules that are noncovalently anchored on the graphene surface is demonstrated using the developed graphene biosensors.
石墨烯生物传感器
在文章 2106666 中,Xiaoyan Zhang、Grégory F. Schneider、Wangyang Fu 及其同事演示了在超高频率下运行的石墨烯生物传感器,其中高盐溶液的电导率和离子屏蔽被完全取消。 使用开发的石墨烯生物传感器演示了链霉亲和素分子与非共价锚定在石墨烯表面上的生物素分子结合的介电调制检测。
Potassium-Ion Batteries
Defect-rich carbon materials possess high gravimetric potassium storage capability, but their cyclic stability is limited because of the low reversibility of undesirable defects and their deteriorative conductivity. In article number 2108621, Zhicheng Ju, Shenglin Xiong, and co-workers propose an in situ defect-selectivity and order-in-disorder synergetic engineering in carbon materials via a self-template strategy to boost the K+-storage capacity, rate capability, and cyclic stability simultaneously.
钾离子电池
富缺陷碳材料具有高重量储钾能力,但由于不良缺陷的可逆性低和导电性差,其循环稳定性受到限制。在文章编号2108621中,朱志成、熊胜林及其同事通过自模板策略在碳材料中提出了原位缺陷选择性和无序协同工程,以同时提高K+-存储容量、速率能力和循环稳定性。
Nanomedicine
Immediately upon encountering blood, nanoparticles are attacked by complement proteins. Complement binding produces an anaphylaxis-like reaction and causes nanoparticles to be cleared from circulation by phagocytes. To defend nanoparticles, in article number 2107070, Jacob W. Myerson, Jacob S. Brenner, and co-workers demonstrate how to conjugate nanoparticles to humans' natural complement inhibitor, Factor I, which defends the nanoparticle from complement attack, thus ameliorating all the above problems.
纳米医学
一旦遇到血液,纳米颗粒就会立即受到补体蛋白的攻击。补体结合会产生类似过敏反应,并导致吞噬细胞将纳米颗粒从循环中清除。为了保护纳米颗粒,在文章编号2107070中,Jacob W.Myerson、Jacob S.Brenner及其同事演示了如何将纳米颗粒与人类的天然补体抑制剂因子I偶联,因子I保护纳米颗粒免受补体攻击,从而改善所有上述问题。
Polymer Laser Printing
In article number 2108493, Junfang Zhang, Felix Loeffler, and co-workers describe how a facile iron oxide nanofilm synthesis revolutionizes polymer laser printing. Fast and precise laser transfer of polymer spots enables over 100 000 individual chemical reactions to be run in parallel in a single square centimeter. Rapid chemical reaction screenings, such as amide bond formation, click chemistry, or photochemistry, are now possible in the microarray format.
聚合物激光打印
在第 2108493 号文章中,Junfang Zhu、Felix Loeffler 及其同事描述了简单的氧化铁纳米膜合成如何彻底改变聚合物激光打印。 快速、精确的聚合物点激光转移使得超过 100 000 个单独的化学反应能够在一个平方厘米内并行进行。 快速化学反应筛选,例如酰胺键形成、点击化学或光化学,现在可以以微阵列形式进行。
Soft Robotics
Hydrogels with 2D isotropic fatigue resistance are introduced by Ji Liu and co-workers in article number 2107106. These hydrogels are fabricated through synergistically engineering the 2D lamellar microstructures and nanocrystalline domains, enabling application as the load-bearing components in a jellyfish-inspired underwater robot.
软体机器人
Ji Liu 及其同事在文章编号 2107106 中介绍了具有二维各向同性抗疲劳性的水凝胶。这些水凝胶是通过协同设计二维层状微结构和纳米晶域而制造的,可用作受水母启发的水下机器人中的承载组件 。
Multi-Metal Oxide (Electro)catalysts
Multi-metal oxide (MMO) nanomaterials have significant potential to facilitate various demanding (electro)catalytic reactions, but their intrinsic complexity hinders in-depth understanding of the origin of the catalytic activity. In article number 2107868, Kug-Seung Lee, Seoin Back, Yung-Eun Sung, Taeghwan Hyeon, and co-workers develop a structural understanding of uniform-sized spinel-type MMO nanoparticles, which boosts the electrocatalytic oxygen reduction reaction (ORR) activity. Physicochemical and electrochemical analysis reveal the contribution of each element to the structural flexibility and corresponding improved ORR activity.
多金属氧化物(电)催化剂
多金属氧化物(MMO)纳米材料具有促进各种高要求(电)催化反应的巨大潜力,但其内在的复杂性阻碍了对催化活性起源的深入理解。 在第 2107868 号文章中,Kug-Seung Lee、Seoin Back、Yung-Eun Sung、Taeghwan Hyeon 及其同事对均匀尺寸的尖晶石型 MMO 纳米粒子的结构有了更深入的了解,该纳米粒子可提高电催化氧还原反应 (ORR) 活性 。 物理化学和电化学分析揭示了每种元素对结构灵活性和相应改善的 ORR 活性的贡献。
Perovskite Solar Cells
In article 2106118, Kuan Sun and co-workers describe how a thin biguanide hydrochloride (BGCl) film is deposited at the SnO2/perovskite interface for simultaneous interfacial modification and crystallization control. Due to passivation to the oxygen vacancies and hydrogen bond anchoring between BGCl and SnO2/PbI2, reduced interfacial defects and homogeneous perovskite crystallites are achieved, enhancing the carrier dynamics in devices.
钙钛矿太阳能电池
在文章 2106118 中,Kuan Sun 及其同事描述了如何在 SnO2/钙钛矿界面沉积薄双胍盐酸盐 (BGCl) 薄膜,以同时进行界面改性和结晶控制。 由于 BGCl 和 SnO2/PbI2 之间的氧空位钝化和氢键锚定,可以减少界面缺陷并获得均匀的钙钛矿微晶,从而增强器件中的载流子动力学。
Single-Crystal Foils
In article number 2108608, Bin Wu, Jichen Dong, Yunqi Liu, and co-workers report the development of a cyclic electrochemical polishing and thermal annealing approach to obtain single-crystal Cu(111) foils. Pure monolayer graphene is produced on Cu(111) based on a general “bottom-up etching” method. In particular, the obtained graphene shows high and uniform electronic quality using terahertz time-domain spectroscopy (THz-TDS) measurement.
单晶箔
在文章编号 2108608 中,Bin Wu、Jichen Dong、Yunqi Liu 及其同事报告了一种循环电化学抛光和热退火方法的开发,以获得单晶 Cu(111) 箔。 基于通用的“自下而上蚀刻”方法在 Cu(111) 上生产纯单层石墨烯。 特别是,通过太赫兹时域光谱(THz-TDS)测量,所获得的石墨烯显示出高且均匀的电子质量。
1.3D-Printed Anisotropic Polymer Materials for Functional Applications.
用于功能应用的 3D 打印各向异性聚合物材料。
2.Advanced Multifunctional Aqueous Rechargeable Batteries Design: From Materials and Devices to Systems.
先进的多功能水性可充电电池设计:从材料和设备到系统。
3.Graphene-Supported Atomically Dispersed Metals as Bifunctional Catalysts for Next-Generation Batteries Based on Conversion Reactions.
石墨烯支持的原子分散金属作为基于转化反应的下一代电池的双功能催化剂。
4.Biomembrane-Functionalized Micromotors: Biocompatible Active Devices for Diverse Biomedical Applications.
生物膜功能化微电机:用于多种生物医学应用的生物相容性有源器件。
5.Tailored Double Emulsions Made Simple.
定制双重乳液变得简单。
6.In Situ Architecting Endogenous Heterojunction of MoS2 Coupling with Mo2CTx MXenes for Optimized Li+ Storage.
原位构建 MoS2 与 Mo2CTx MXene 耦合的内源异质结,以优化 Li+ 存储。
7.High-Performing Self-Powered Photosensing and Reconfigurable Pyro-photoelectric Memory with Ferroelectric Hafnium Oxide.
采用铁电氧化铪的高性能自供电光传感和可重构热释光电存储器。
8.Electrostatic–Mechanical Synergistic In Situ Multiscale Tissue Adhesion for Sustainable Residue-Free Bioelectronics Interfaces.
静电-机械协同原位多尺度组织粘附,实现可持续无残留生物电子界面。
9.Lattice Polarity Manipulation of Quasi-vdW Epitaxial GaN Films on Graphene Through Interface Atomic Configuration.
通过界面原子构型控制石墨烯上准 vdW 外延 GaN 薄膜的晶格极性。
10.Immune Checkpoint Ligand Bioengineered Schwann Cells as Antigen-Specific Therapy for Experimental Autoimmune Encephalomyelitis.
免疫检查点配体生物工程雪旺细胞作为实验性自身免疫性脑脊髓炎的抗原特异性疗法。
11.Reversible Manipulation of Photoconductivity Caused by Surface Oxygen Vacancies in Perovskite Stannates with Ultraviolet Light.
紫外光对钙钛矿锡酸盐表面氧空位引起的光电导率的可逆操纵。
12.Toward Perfect Optical Diffusers: Dielectric Huygens’ Metasurfaces with Critical Positional Disorder.
迈向完美的光学漫射器:具有临界位置无序的电介质惠更斯超表面。
13.Cluster Fragments in Amorphous Phosphorus and their Evolution under Pressure.
无定形磷中的团簇碎片及其在压力下的演化。
14.Light-Controlled Nucleation and Shaping of Self-Assembling Nanocomposites.
自组装纳米复合材料的光控成核和成型。
15.Scalable Polyimide-Poly(Amic Acid) Copolymer Based Nanocomposites for High-Temperature Capacitive Energy Storage.
用于高温电容储能的可扩展聚酰亚胺-聚酰胺酸共聚物基纳米复合材料。
16.Efficiency of Thermally Activated Delayed Fluorescence Sensitized Triplet Upconversion Doubled in Three-Component System.
三组分系统中热激活延迟荧光敏化三重态上转换的效率加倍。
17.In Situ Sprayed Starvation/Chemodynamic Therapeutic Gel for Post-Surgical Treatment of IDH1 (R132H) Glioma.
原位喷雾饥饿/化学动力学治疗凝胶用于 IDH1 (R132H) 胶质瘤的术后治疗。
18.Layer-by-Layer Engineered All-Liquid Microfluidic Chips for Enzyme Immobilization.
用于酶固定化的逐层设计的全液体微流控芯片。
19.Atomic Fe–N4/C in Flexible Carbon Fiber Membrane as Binder-Free Air Cathode for Zn–Air Batteries with Stable Cycling over 1000 h.
柔性碳纤维膜中的原子 Fe-N4/C 作为锌空气电池的无粘合剂空气阴极,稳定循环超过 1000 小时。
20.Cell Sheet-Like Soft Nanoreactor Arrays.
细胞片状软纳米反应器阵列。
21.Boosting Piezoelectricity under Illumination via the Bulk Photovoltaic Effect and the Schottky Barrier Effect in BiFeO3.
通过 BiFeO3 中的体光伏效应和肖特基势垒效应增强照明下的压电性能。
22.Multivalent Noncovalent Interfacing and Cross-Linking of Supramolecular Tubes.
超分子管的多价非共价界面和交联。
23.Brain-Targeted Aggregation-Induced-Emission Nanoparticles with Near-Infrared Imaging at 1550 nm Boosts Orthotopic Glioblastoma Theranostics.
具有 1550 nm 近红外成像功能的脑靶向聚集诱导发射纳米颗粒可增强原位胶质母细胞瘤治疗诊断。
24.A Super-Boosted Hybrid Plasmonic Upconversion Process for Photodetection at 1550 nm Wavelength.
用于 1550 nm 波长光电检测的超级增强混合等离子体上转换过程。
25.Additive Manufacturing of Ti3C2-MXene-Functionalized Conductive Polymer Hydrogels for Electromagnetic-Interference Shielding.
用于电磁干扰屏蔽的 Ti3C2-MXene 功能化导电聚合物水凝胶的增材制造。
26.High Miscibility Compatible with Ordered Molecular Packing Enables an Excellent Efficiency of 16.2% in All-Small-Molecule Organic Solar Cells.
高混溶性与有序分子堆积相兼容,使全小分子有机太阳能电池的效率达到 16.2%。
27.Self-Healing Hydrogel Embodied with Macrophage-Regulation and Responsive-Gene-Silencing Properties for Synergistic Prevention of Peritendinous Adhesion.
具有巨噬细胞调节和响应基因沉默特性的自愈水凝胶,可协同预防腱周粘连。
28.Lateral Fully Organic P–N Diodes Created in a Single Donor–Acceptor Copolymer.
在单一施主-受主共聚物中创建的横向全有机 P-N 二极管。
29.Strong Metal Phosphide–Phosphate Support Interaction for Enhanced Non-Noble Metal Catalysis.
用于增强非贵金属催化的强金属磷化物-磷酸盐支持相互作用。
30.Tuning the Transport Properties of Gases in Porous Graphene Membranes with Controlled Pore Size and Thickness.
通过控制孔径和厚度来调节多孔石墨烯膜中气体的传输特性。
31.The Quest for Stable Potassium-Ion Battery Chemistry.
寻求稳定的钾离子电池化学。
32.Enzyme-Mediated Intracellular Polymerization of AIEgens for Light-Up Tumor Localization and Theranostics.
酶介导的 AIEgen 细胞内聚合用于肿瘤定位和治疗诊断。
33.Manipulating Electroluminochromism Behavior of Viologen-Substituted Iridium(III) Complexes through Ligand Engineering for Information Display and Encryption.
通过信息显示和加密的配体工程操纵紫罗碱取代的铱 (III) 配合物的电致发光变色行为。
34.Shielding Ferritin with a Biomineralized Shell Enables Efficient Modulation of Tumor Microenvironment and Targeted Delivery of Diverse Therapeutic Agents.
用生物矿化外壳屏蔽铁蛋白可以有效调节肿瘤微环境并有针对性地输送多种治疗药物。
35.Soluble Organic Cathodes Enable Long Cycle Life, High Rate, and Wide-Temperature Lithium-Ion Batteries.
可溶性有机正极可实现长循环寿命、高倍率和宽温锂离子电池。
36.Electronically and Geometrically Modified Single-Atom Fe Sites by Adjacent Fe Nanoparticles for Enhanced Oxygen Reduction.
通过相邻铁纳米粒子对单原子铁位点进行电子和几何修饰,以增强氧还原。
37.A Hydrogel Ionic Circuit Based High-Intensity Iontophoresis Device for Intraocular Macromolecule and Nanoparticle Delivery.
基于水凝胶离子电路的高强度离子电渗装置,用于眼内高分子和纳米粒子输送。
38.Free-Standing Nanofilm Electrode Arrays for Long-Term Stable Neural Interfacings.
用于长期稳定神经接口的独立式纳米膜电极阵列。
39.Highly Efficient Blue Phosphorescence from Pillar-Layer MOFs by Ligand Functionalization.
通过配体功能化实现柱层 MOF 的高效蓝色磷光。
40.Two Birds with One Stone: Interfacial Engineering of Multifunctional Janus Separator for Lithium–Sulfur Batteries.
一石二鸟:锂硫电池多功能Janus分离器的界面工程。
41.Solvent-Assisted 4D Programming and Reprogramming of Liquid Crystalline Organogels.
液晶有机凝胶的溶剂辅助 4D 编程和重编程。
42.A High-Performance Nonfused Wide-Bandgap Acceptor for Versatile Photovoltaic Applications.
适用于多种光伏应用的高性能非熔断宽带隙受体。
43.Plant-Based Structures as an Opportunity to Engineer Optical Functions in Next-Generation Light Management.
基于植物的结构是在下一代光管理中设计光学功能的机会。
44.Smart Chemical Engineering-Based Lightweight and Miniaturized Attachable Systems for Advanced Drug Delivery and Diagnostics.
基于智能化学工程的轻量级和小型化可附加系统,用于先进的药物输送和诊断。
45.Macrocycle-Based Porous Organic Polymers for Separation, Sensing, and Catalysis.
用于分离、传感和催化的大环基多孔有机聚合物。
46.Polyprodrug Nanomedicines: An Emerging Paradigm for Cancer Therapy.
聚前药纳米药物:癌症治疗的新兴范例。
47.Controlling and Focusing In-Plane Hyperbolic Phonon Polaritons in α-MoO3 with a Curved Plasmonic Antenna.
使用弯曲等离子体天线控制和聚焦 α-MoO3 中的面内双曲声子极化激元。
48.Reaching the Excitonic Limit in 2D Janus Monolayers by In Situ Deterministic Growth.
通过原位确定性生长达到二维 Janus 单层的激子极限。
49.Auxetics-Inspired Tunable Metamaterials for Magnetic Resonance Imaging.
用于磁共振成像的受拉胀启发的可调谐超材料。
50.Intrinsic Wettability in Pristine Graphene.
原始石墨烯的固有润湿性。
51.Stretchable Soft Composites with Strain-Induced Architectured Color.
具有应变诱导建筑色彩的可拉伸软复合材料。
52.Sequential Activation of Molecular and Macroscopic Spin-State Switching within the Hysteretic Region Following Pulsed Light Excitation.
脉冲光激发后迟滞区内分子和宏观自旋态转换的顺序激活。
53.Smart Face Mask Based on an Ultrathin Pressure Sensor for Wireless Monitoring of Breath Conditions.
基于超薄压力传感器的智能口罩,可无线监测呼吸状况。
54.Resolving Atomic-Scale Interactions in Nonfullerene Acceptor Organic Solar Cells with Solid-State NMR Spectroscopy, Crystallographic Modelling, and Molecular Dynamics Simulations.
利用固态核磁共振波谱、晶体学建模和分子动力学模拟解决非富勒烯受体有机太阳能电池中的原子级相互作用。
55.In-Memory Realization of Eligibility Traces Based on Conductance Drift of Phase Change Memory for Energy-Efficient Reinforcement Learning.
基于相变存储器电导漂移的资格痕迹的内存实现,用于节能强化学习。
56.Unusual Site-Selective Doping in Layered Cathode Strengthens Electrostatic Cohesion of Alkali-Metal Layer for Practicable Sodium-Ion Full Cell.
层状阴极中不寻常的位点选择性掺杂增强了碱金属层的静电内聚力,用于实用的钠离子全电池。
57.Covalent-Linking-Enabled Superior Compatibility of ZIF-8 Hybrid Membrane for Efficient Propylene Separation.
共价连接使 ZIF-8 混合膜具有卓越的兼容性,可实现高效的丙烯分离。
58.Organic–Inorganic Hybrid Cathode with Dual Energy-Storage Mechanism for Ultrahigh-Rate and Ultralong-Life Aqueous Zinc-Ion Batteries.
具有双储能机制的有机-无机混合阴极,用于超高倍率和超长寿命水系锌离子电池。
59.Mass-Manufactured Beam-Steering Metasurfaces for High-Speed Full-Duplex Optical Wireless-Broadcasting Communications.
用于高速全双工光学无线广播通信的大规模制造的波束控制超表面。
60.Homologous Bromides Treatment for Improving the Open-Circuit Voltage of Perovskite Solar Cells.
用于提高钙钛矿太阳能电池开路电压的同系溴化物处理。
61.NIR-Responsive TiO2 Biometasurfaces: Toward In Situ Photodynamic Antibacterial Therapy for Biomedical Implants.
近红外响应 TiO2 生物元表面:生物医学植入物的原位光动力抗菌疗法。
62.Orbital Gating Driven by Giant Stark Effect in Tunneling Phototransistors.
隧道光电晶体管中巨斯塔克效应驱动的轨道门控。
63.Two-Photon 3D Laser Printing Inside Synthetic Cells.
双光子 3D 激光打印合成细胞内部。
64.Biomimetic Trachea Engineering via a Modular Ring Strategy Based on Bone-Marrow Stem Cells and Atelocollagen for Use in Extensive Tracheal Reconstruction.
通过基于骨髓干细胞和去端肽胶原的模块化环策略进行仿生气管工程,用于广泛的气管重建。
65.Strong π–π Stacking Stabilized Nanophotosensitizers: Improving Tumor Retention for Enhanced Therapy for Large Tumors in Mice.
强π-π堆积稳定纳米光敏剂:改善肿瘤保留,增强小鼠大肿瘤的治疗。
66.Sodium-Doped Titania Self-Rectifying Memristors for Crossbar Array Neuromorphic Architectures.
用于交叉阵列神经形态架构的钠掺杂二氧化钛自整流忆阻器。
67.Resonance-Mediated Dynamic Modulation of Perovskite Crystallization for Efficient and Stable Solar Cells.
共振介导的钙钛矿结晶动态调制,用于高效稳定的太阳能电池。
68.Elaborate Size-Tuning of Silica Aerogel Building Blocks Enables Laser-Driven Lighting.
二氧化硅气凝胶构件的精细尺寸调整可实现激光驱动照明。
69.Decoupling Complex Multi-Length-Scale Morphology in Non-Fullerene Photovoltaics with Nitrogen K-Edge Resonant Soft X-ray Scattering.
利用氮 K 边共振软 X 射线散射解耦非富勒烯光伏中复杂的多长度尺度形态。
70.Polymer Acceptors with Flexible Spacers Afford Efficient and Mechanically Robust All-Polymer Solar Cells.
具有柔性垫片的聚合物受体可提供高效且机械坚固的全聚合物太阳能电池。
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