【标题速读】【Advmat】【2022年】【3月】

2023-07-12 00:00 作者:Rt_Cola 0人读过 | 我要投稿

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。

Hierarchical Catalysts

In article number 2106436, Liangbing Hu and co-workers report an interface engineering strategy to improve the stability of multi-elemental alloy (MEA) nanoparticles on a carbon substrate. The MEA-oxide–carbon hierarchical catalysts synthesized by a rapid high-temperature shock method demonstrate excellent thermal and electrochemical stabilities, and hold great promise for various catalytic applications.

分级催化剂

在第 2106436 号文章中，Liangbing Hu 及其同事报告了一种界面工程策略，可提高碳基底上多元素合金 (MEA) 纳米粒子的稳定性。通过快速高温冲击法合成的MEA-氧化物-碳多级催化剂表现出优异的热稳定性和电化学稳定性，在各种催化应用中具有广阔的前景。

Topological Insulators

In article number 2106172, Tianxiao Nie, Jimin Zhao, Xiaojun Wu, and co-workers report the successful realization of room-temperature 2D ferromagnetism in topological-insulator-induced van der Waals Fe3GeTe2, evidenced by ultrafast terahertz emission spectroscopy results. Furthermore, the direction of the external magnetic field is rotated and the sample's front surface reversed to probe the terahertz radiation symmetry.

拓扑绝缘体

在第 2106172 号文章中，Tianxiao Nie、Jimin Zhao、Xiaojun Wu 及其同事报告了在拓扑绝缘体诱导的范德华 Fe3GeTe2 中成功实现了室温二维铁磁性，并由超快太赫兹发射光谱结果证明了这一点。此外，旋转外部磁场的方向并反转样品的前表面以探测太赫兹辐射对称性。

Anisotropic Ion Diffusion

An anisotropic ion diffusion process is developed, as reported by Masaya Fujioka and co-workers in article number 2106754. This technique can homogeneously extract Na+ from a type-II Si clathrate regardless of the size of the single crystal while maintaining high crystallinity, by skillfully exploiting the difference in the chemical potentials as a driving force. The synthesis concept behind the technique is expected to expose new exploration areas for thermodynamically metastable materials.

各向异性离子扩散

Masaya Fujioka 及其同事在文章编号 2106754 中报道了一种各向异性离子扩散工艺。该技术可以从 II 型 Si 包合物中均匀地提取 Na+，无论单晶的尺寸如何，同时保持高结晶度。利用化学势的差异作为驱动力。该技术背后的合成概念预计将为热力学亚稳态材料开辟新的探索领域。

Nanovaccines

A cancer cell membrane@porous silicon nanoparticles@Au nanovaccine is developed by Zhenyang Luo, Hélder A. Santos, Bing Xia, and co-workers in article number 2108012, based on weak-immunostimulatory porous silicon@Au nanoparticulate cores and multi-antigenic cancer cell membranes. These exogenous nanovaccines boost antitumor immunity, preventing the occurrence of solid tumors, and significantly inhibiting the growth and metastasis of solid tumors after photothermal therapy combined with immune checkpoint inhibitors.

纳米疫苗

罗振阳、Hélder A. Santos、Bing Xia 及其同事基于弱免疫刺激性多孔硅@Au纳米颗粒核和多抗原癌症，开发了一种癌细胞膜@多孔硅纳米颗粒@Au纳米疫苗，文章编号为2108012 细胞膜。这些外源性纳米疫苗可增强抗肿瘤免疫力，预防实体瘤的发生，并在光热疗法联合免疫检查点抑制剂后显着抑制实体瘤的生长和转移。

Bone Tissue Engineering

In article number 2107924, Kai Jiao, Franklin R. Tay, Li-na Niu, and co-workers present RNA-ACP nanomachines that induce extrafibrillar and intrafibrillar mineralization of collagen fibrils and regenerate new bone in a dynamic and programmable manner. These multifunctional nanomachines are comparable to the function of osteoblasts and bring new opportunities and challenges to bone tissue engineering.

骨组织工程

在文章编号 2107924 中，Kai Jiao、Franklin R. Tay、Li-na Niu 及其同事提出了 RNA-ACP 纳米机器，该纳米机器可诱导胶原纤维的纤维外和纤维内矿化，并以动态和可编程的方式再生新骨。这些多功能纳米机器与成骨细胞的功能相当，为骨组织工程带来新的机遇和挑战。

E-Textiles

In article number 2108021, Laurent Couetil, Martin Byung-Guk Jun, Chi Hwan Lee, and co-workers report how direct spray writing of functional nanomaterials into stretchy fabrics is enabled at sub-millimeter resolution to produce e-textiles with custom designs. The e-textiles fit well various body sizes and shapes of large animals under ambulatory conditions, allowing for high fidelity monitoring of health conditions from a distance.

电子纺织品

在第 2108021 号文章中，Laurent Couetil、Martin Byung-Guk Jun、Chi Hwan Lee 及其同事报告了如何以亚毫米分辨率将功能性纳米材料直接喷涂到弹性织物中，从而生产具有定制设计的电子纺织品。电子纺织品非常适合动态条件下大型动物的各种体型和形状，从而可以远距离高保真地监测健康状况。

Tissue Repair

In article number 2108325, Wenguo Cui and co-workers report the fabrication of a 3D bionic short fiber scaffold with excellent reversible hydroscopicity and biostable conductivity. This scaffold helps to achieve precise tissue remodeling by collecting a large amount of secretions in the early stages of wound healing and transmitting bioelectrical signals to proactively match the cascade reaction of tissue repair.

组织修复

在第 2108325 号文章中，Wenguo Cui 及其同事报道了一种具有优异可逆吸水性和生物稳定性导电性的 3D 仿生短纤维支架的制造。该支架通过收集伤口愈合早期的大量分泌物，并传递生物电信号，主动匹配组织修复的级联反应，有助于实现精准的组织重塑。

Organic Lasers

Single-, dual-, triple- to quad-wavelength lasers can be flexibly manipulated based on polymer-stabilized blue-phase liquid-crystal film, by tuning the bandgap, resonance cavity, order parameter of the laser dye, and even the pump energy. The single-to-quad-wavelength surface-emitting lasers proposed by Feng Jin, Jingxia Wang, and co-workers in article number 2108330, can be employed as coherent light sources for next-generation optical devices.

有机激光器

基于聚合物稳定的蓝相液晶薄膜，通过调节带隙、谐振腔、激光染料的有序参数甚至泵浦能量，可以灵活地操纵单、双、三至四波长激光器。 Feng Jin、Jingxia Wang 及其同事在文章编号 2108330 中提出的单波长到四波长表面发射激光器可用作下一代光学器件的相干光源。

Bioprogrammable Lasers

Inspired by natural responsivity of biomaterials, in article number 2107809, Yu-Cheng Chen and co-workers demonstrate the first laser encoding by exploiting enzymatic hydrogels in a droplet cavity. The cover illustrates tunable lasing wavelengths achieved by manipulating biological activities and 3D networks in a microgel laser array. The biological encoded laser will provide a new insight into the development of bioprogrammable laser devices, offering new opportunities for secure communication and smart sensing.

生物可编程激光器

受生物材料自然响应性的启发，Yu-Cheng Chen 及其同事在第 2107809 号文章中通过利用液滴腔中的酶水凝胶展示了第一个激光编码。封面展示了通过操纵微凝胶激光阵列中的生物活动和 3D 网络实现的可调谐激光波长。生物编码激光器将为生物可编程激光设备的开发提供新的见解，为安全通信和智能传感提供新的机会。

Porous Fibrous Scaffolds

The dimensions of electrospun fibers are predestined for synthetic replacement of extracellular matrix structures. In article number 2106780, Tobias Weigel and co-workers generate highly porous electrospun scaffolds, featuring an ensemble of loose fibers and pores of appropriate size to enable applications in engineering animal-free 3D biomedical tissues. The mechanical properties and structural composition describe a tradeoff between current synthetic porous scaffolds and animal-derived hydrogels, which are deployed as electrospun-based multilayered skin equivalents.

多孔纤维支架

电纺纤维的尺寸预定用于细胞外基质结构的合成替代。在第 2106780 号文章中，Tobias Weigel 及其同事生成了高度多孔的电纺支架，其特点是松散的纤维和适当尺寸的孔的集合，可用于工程化无动物 3D 生物医学组织。机械性能和结构组成描述了当前合成多孔支架和动物源性水凝胶之间的权衡，后者被部署为基于静电纺丝的多层皮肤等效物。

Endovascular Treatment

In article number 2108266, Rahmi Oklu and co-workers report an endovascular treatment for ruptured saccular aneurysms. In the cover image, blue represents the catheter inside the artery releasing the shear thinning hydrogel (in yellow) inside the aneurysm sac, rapidly achieving hemostasis. The magnified image of the hydrogel demonstrates its structure, with the dark brown spots indicating iodine. The inset in the lower right demonstrates rapid healing of the aneurysm neck and the fibroinflammatory response to the hydrogel leading the fibrotic replacement of the biomaterial.

血管内治疗

在第 2108266 号文章中，Rahmi Oklu 及其同事报告了一种针对破裂的囊状动脉瘤的血管内治疗方法。封面图片中，蓝色代表动脉内的导管，释放动脉瘤囊内的剪切稀化水凝胶（黄色），迅速实现止血。水凝胶的放大图像显示了其结构，深棕色斑点表示碘。右下插图显示动脉瘤颈的快速愈合以及对水凝胶的纤维炎症反应导致生物材料的纤维化替代。

Gas Sensors

In article number 2105869, Jihan Kim, Il-Doo Kim, and co-workers present a multifunctional chemiresistive gas sensor composed of nanofiber yarn sputter deposited with an oxide sensing layer, and then coated with ZIF-8 for nanofiltration of gas analytes. Through comprehensive sensing experiments and molecular modeling, they demonstrate that this concept of introducing bistacked oxide/molecular sieve heterostructured layers on the yarn platform guarantees improved surface activity and selective molecular transport in a free-standing sensor.

气体传感器

在文章编号 2105869 中，Jihan Kim、Il-Doo Kim 及其同事提出了一种多功能化学电阻气体传感器，该传感器由沉积有氧化物传感层的纳米纤维纱线溅射组成，然后涂有 ZIF-8，用于气体分析物的纳滤。通过全面的传感实验和分子建模，他们证明了在纱线平台上引入双堆叠氧化物/分子筛异质结构层的概念保证了独立式传感器中表面活性和选择性分子传输的改善。

Thin Films

When thinning down silicon films toward nanometer thickness, their thermal conductivity decreases dramatically. In article number 2108352, Klaas-Jan Tielrooij and co-workers report a combined experimental–theoretical study that shows that this is not the case for the layered semiconductor MoSe2. For the thinnest MoSe2 films, the decreasing thermal conductivity is compensated by low-energy, long-mean-free-path heat-carrying modes. These thin films furthermore exhibit efficient heat dissipation to air molecules.

薄膜

当硅薄膜减薄至纳米厚度时，它们的导热率急剧下降。在第 2108352 号文章中，Klaas-Jan Tielrooij 及其同事报告了一项实验与理论相结合的研究，该研究表明层状半导体 MoSe2 的情况并非如此。对于最薄的 MoSe2 薄膜，降低的热导率可以通过低能量、长平均自由程载热模式来补偿。这些薄膜还表现出对空气分子的有效散热。

Biosensors

In article number 2108607, Miaomiao Yuan, Hossam Haick, and co-workers report an innovative, stretchable, skin-conformal, fast-response, microneedle, extended-gate field-effect transistor biosensor for real-time detection of sodium in interstitial fluids for minimally invasive health monitoring. High sensitivity, low limit of detection, excellent biocompatibility, and on-body mechanical stability are demonstrated. This platform can be integrated with a wireless-data transmitter and the Internet-of-Things cloud for real-time monitoring and long-term analysis.

生物传感器

在文章编号2108607中，袁淼淼、Hossam Haick及其同事报道了一种创新的、可拉伸的、皮肤共形的、快速响应的微针、扩展栅极场效应晶体管生物传感器，用于实时检测间质液中的钠，用于微创健康监测。具有高灵敏度、低检测限、良好的生物相容性和体外机械稳定性。该平台可以与无线数据发送器和物联网云集成，用于实时监控和长期分析。

Multiferroic Materials

In article number 2109144, Jae Hoon Kim, Je-Geun Park, and co-workers report a new exciton in multiferroic NiI2, consisting of a 2D triangular lattice. This newly discovered exciton is not only magnetic but also quantum entangled. When an electron and hole combine via a transition between two quantum-entangled states, it produces a bright reddish light of 1.384 eV.

多铁性材料

在第 2109144 号文章中，Jae Hoon Kim、Je-Geun Park 及其同事报告了多铁性 NiI2 中的一种新激子，由 2D 三角形晶格组成。这种新发现的激子不仅具有磁性，而且具有量子纠缠。当电子和空穴通过两个量子纠缠态之间的跃迁结合时，会产生 1.384 eV 的明亮红光。

Structural Color

A view of the large-scale assembly of structural colors by different nanoresonators is shown, as described by Andrea Fratalocchi and co-workers in article number 2108013. Each nanoresonator is deformed in all dimensions, including the vertical axis, and supports competing mechanisms of scattering and resonant light–matter interactions that yield in high-resolution, a complete gamut of colors even exceeding the red, green, and blue spectrum.

结构颜色

如Andrea Fratalocchi及其同事在文章编号2108013中所述，显示了不同纳米谐振器对结构颜色的大规模组装的视图。每个纳米谐振器都在包括垂直轴在内的所有维度上变形，并支持散射和共振光-物质相互作用的竞争机制，从而产生高分辨率、完整的色域，甚至超过红、绿和蓝光谱。

Phase-Change Memory Materials

In article number 2109139, Wei Zhang, Riccardo Mazzarello, and co-workers study the crystallization and electronic properties of the GeSb2Te4 phase-change memory material, based on ab initio simulations with more than 1000 atoms. The smooth overlap of atomic positions (SOAP) similarity measure reveals the evolution of the crystallization process, and as-crystallized models are used to study the connection between structural and electronic properties, which is relevant to the transport behavior of Ge–Sb–Te alloys.

相变存储材料

在第 2109139 号文章中，Wei Zhang、Riccardo Mazzarello 及其同事基于 1000 多个原子的从头计算模拟，研究了 GeSb2Te4 相变存储材料的结晶和电子特性。原子位置平滑重叠 (SOAP) 相似性度量揭示了结晶过程的演变，结晶模型用于研究结构和电子特性之间的联系，这与 Ge-Sb-Te 合金的输运行为相关。

All-Perovskite Tandem Photovoltaics

Monolithic multijunction solar cells using lead-halide perovskite materials can deliver high performance at low material and processing costs. In article number 2110053, René A. J. Janssen and co-workers report surface-treatment and light-management strategies to reduce performance losses arising from nonradiative recombination and optical losses. The cover artwork shows the interaction of photogenerated electrons and holes at the interface between wide- and narrow-bandgap sub-cells of the tandem device.

全钙钛矿串联光伏

使用卤化铅钙钛矿材料的单片多结太阳能电池可以以较低的材料和加工成本提供高性能。在第 2110053 号文章中，René A. J. Janssen 及其同事报告了表面处理和光管理策略，以减少非辐射复合和光学损耗引起的性能损失。封面插图显示了串联器件的宽带隙和窄带隙子电池之间界面处的光生电子和空穴的相互作用。

Skyrmion Clusters

An electric-field-driven cascading transition of skyrmion clusters in a nanostructured ferromagnetic/ferroelectric multiferroic heterostructure is realized by Zhipeng Hou, Yangfan Hu, and co-workers, as described in article number 2107908, allowing a continuous multilevel transition of the number of skyrmions in a one-by-one manner. Most notably, the transition is nonvolatile and reversible. These results open up a new direction for constructing low-power-consuming, nonvolatile, and multibit skyrmionic devices.

Skyrmion集群

侯志鹏（Zhipeng Hou）、胡扬帆（Yangfan Hu）及其同事实现了纳米结构铁磁/铁电多铁性异质结构中skyrmion团簇的电场驱动级联跃迁，如文章编号2107908所述，允许skyrmions数量以一种接一种的方式连续多级跃迁。最值得注意的是，这种转变是非易失性和可逆的。这些结果为构建低功耗、非易失性和多位skyrmionic器件开辟了新的方向。

Nanomedicine

The liver is the primary accumulation site for intravenously administered nanocarriers or incidental nanoparticles that gain access to the systemic circulation. Liver distribution and cellular uptake of nanoparticles by various liver cells could influence the therapeutic efficacy. Understanding nano–liver interactions is critical for the design of much safer and more effective nano-theranostics to treat diverse diseases, as discussed by Chunying Chen, Tian Xia, and Jiulong Li in article number 2106456.

纳米医学

肝脏是静脉内施用的纳米载体或附带的纳米颗粒进入体循环的主要积累位点。各种肝细胞对纳米颗粒的肝脏分布和细胞摄取可能会影响治疗效果。正如 Chunying Chen、Tian Xia 和 Jiulong Li 在文章编号 2106456 中所讨论的，了解纳米-肝脏相互作用对于设计更安全、更有效的纳米治疗学来治疗多种疾病至关重要。

Bioelectronics

The cyborg brain organoid platform reported by Jia Liu and co-workers in article number 2106829 features “tissue-like” stretchable mesh nanoelectronics designed to match the mechanical properties of brain organoids and to be folded by the organogenetic process of progenitor or stem cells. Long-term stable, continuous recording is enabled and the emergence of single-cell action potentials from early-stage brain organoid development can be captured. A 3D reconstructed fluorescence image of cyborg brain organoid tissue is shown. The red represents neural stem cells, the green neurons, the blue cell nuclei, and the yellow soft nanoelectronic interconnects and sensors.

生物电子学

Jia Liu 及其同事在文章编号 2106829 中报道的机器人大脑类器官平台具有“组织状”可拉伸网状纳米电子学，旨在匹配大脑类器官的机械特性，并通过祖细胞或干细胞的器官发生过程进行折叠。可以实现长期稳定、连续的记录，并且可以捕获早期大脑类器官发育中出现的单细胞动作电位。显示了机器人大脑类器官组织的 3D 重建荧光图像。红色代表神经干细胞，绿色代表神经元，蓝色代表细胞核，黄色代表软纳米电子互连和传感器。

Microglial Autophagy

In article number 2108435, Zhen Li and co-workers report that Cu2−xSe-anti-TRPV1 nanoparticles can efficiently target the TRPV1 channels on the membrane of microglia, and photothermally activate them under second near-infrared laser irradiation to allow the efficient influx of calcium ions, which boosts the autophagy of microglia for clearance of α-synuclein aggregates to improve the therapeutic efficacy of Parkinson's disease.

微胶质细胞自噬

在文章编号2108435中，Zhen Li及其同事报道了Cu2−xSe-anti-TRPV1纳米颗粒可以有效地靶向小胶质细胞膜上的TRPV1通道，并在第二次近红外激光照射下光热激活它们，以允许钙离子的有效流入，其促进小胶质细胞的自噬以清除α-突触核蛋白聚集体，从而提高帕金森病的治疗效果。

3D Cryo-Bioprinting

A vertical 3D cryo-bioprinting technique is reported by Yu Shrike Zhang and co-workers in article number 2108931, which concurrently allows the user to create freestanding filamentous structures containing interconnected, anisotropic microchannels featuring gradient sizes aligned in the vertical direction, also associated with enhanced mechanical performance. This method is further extended to a multi-material format, finding potential applications in interface tissue engineering, regenerative medicine, drug discovery, and personalized therapeutics.

3D冷冻生物打印

Yu Shrike Zhang及其同事在文章编号2108931中报道了一种垂直3D冷冻生物打印技术，该技术同时允许用户创建独立的丝状结构，该结构包含互连的各向异性微通道，其特征是在垂直方向上排列的梯度尺寸，也与增强的机械性能相关。该方法进一步扩展到多材料形式，在界面组织工程、再生医学、药物发现和个性化治疗中找到了潜在的应用。

Tissue Repair

In article number 2109194, Jason A. Burdick and co-workers report the fabrication of anisotropic rod-shaped microparticles through a microfluidics approach and their assembly into injectable and porous granular hydrogels for tissue repair. Interconnected and anisotropic pores within these hydrogels support both robust endothelial cell sprouting in vitro and rapid invasion of endogenous cells and blood vessels in vivo.

组织修复

在文章编号2109194中，Jason A.Burdick及其同事报道了通过微流体方法制造各向异性杆状微粒，并将其组装成可注射和多孔的颗粒状水凝胶用于组织修复。这些水凝胶中相互连接的各向异性孔支持体外强大的内皮细胞发芽和体内内源性细胞和血管的快速入侵。

2D Nanomaterials

In article number 2106110, Joohoon Kang and co-workers demonstrate various electronic devices such as field-effect transistors, photodetectors, diodes, and logic gates in wafer-scale based on building-block assembly for van der Waals heterostructure formation. The building blocks consist of solution-processed nanomaterials including metallic graphene, semiconducting MoS2 and CNT, and oxidized HfS2 (i.e., HfO2) as an insulator.

二维纳米材料

在第2106110号文章中，Joohoon Kang及其同事展示了各种电子器件，如场效应晶体管、光电探测器、二极管和基于范德华异质结构形成构建块组装的晶圆级逻辑门。构建块由溶液处理的纳米材料组成，包括金属石墨烯、半导体MoS2和CNT，以及作为绝缘体的氧化HfS2（即HfO2）。

Spintronics

There has long been interest in exploiting the excellent spin coherence in graphene for applications in spintronics. In article 2105023, Keke He, Jonathan P. Bird, and co-workers demonstrate robust spin conduction in graphene, well beyond room temperature. This enhanced performance derives from pronounced spin–orbit coupling, introduced when a chromia substrate is used to break the natural symmetry of the carbon lattice.

自旋电子学

长期以来，人们一直对利用石墨烯中优异的自旋相干性在自旋电子学中的应用感兴趣。在文章2105023中，Keke He、Jonathan P.Bird及其同事展示了石墨烯中强大的自旋传导，远远超过室温。这种增强的性能源于明显的自旋-轨道耦合，当使用铬基板打破碳晶格的自然对称性时引入了这种耦合。

Gas Sensors

In article number 2107696, Il-Doo Kim, Steve Park, and co-workers introduce a microfluidic-based solution shearing combined with post-synthetic rapid crystallization (MASS-PRC) process, which enables the formation of high-quality conductive, flexible and transparent Ni3(HITP)2 films with thickness controllability down to 10 nm in a rapid large-area scalable manner. They fabricate hydrogen sulfide (H2S) gas sensors using the film, which can detect the target gas under humid conditions, and exhibit the highest sensing performance to date.

气体传感器

在文章编号2107696中，Il Doo Kim、Steve Park及其同事介绍了一种基于微流体的溶液剪切与合成后快速结晶（MASS-PRC）工艺相结合的方法，该方法能够以快速大面积可扩展的方式形成高质量的导电、柔性和透明Ni3（HITP）2膜，其厚度可控性低至10nm。他们使用该薄膜制造了硫化氢（H2S）气体传感器，该传感器可以在潮湿条件下检测目标气体，并表现出迄今为止最高的传感性能。

Patterned Surfaces

Patterned surfaces can enhance the sensitivity of laser desorption ionization mass spectrometry by segregating and concentrating analytes, but their fabrication is challenging. In article number 2108194, Adam R. Abate and co-workers introduce a simple method to pattern substrates with micrometer-scale wells yielding more-sensitive mass spectrometry measurements compared to flat-surface or cylindrical wells. The wells also concentrate and localize cells and beads for cell-based assays.

图案化的表面

图案化表面可以通过分离和浓缩分析物来提高激光解吸电离质谱的灵敏度，但它们的制造具有挑战性。在第2108194号文章中，Adam R.Abate及其同事介绍了一种简单的方法，用微米级井对衬底进行图案化，与平面或圆柱形井相比，可以产生更灵敏的质谱测量结果。这些孔还浓缩和定位细胞和珠粒，用于基于细胞的测定。

1.Stabilization of Metastable Halide Perovskite Lattices in the 2D Limit.

二维极限内亚稳态卤化物钙钛矿晶格的稳定性。

2.Fast Ionic Storage in Aqueous Rechargeable Batteries: From Fundamentals to Applications.

水性可充电电池中的快速离子存储：从基础到应用。

3.KTaO3—The New Kid on the Spintronics Block.

KTaO3——自旋电子学领域的新人。

4.Long-Range-Ordered Assembly of Micro-/Nanostructures at Superwetting Interfaces.

超润湿界面处微/纳米结构的长程有序组装。

5.Interface Engineering Between Multi-Elemental Alloy Nanoparticles and a Carbon Support Toward Stable Catalysts.

多元素合金纳米粒子和碳载体之间的界面工程以获得稳定的催化剂。

6.Generation and Control of Terahertz Spin Currents in Topology-Induced 2D Ferromagnetic Fe3GeTe2|Bi2Te3 Heterostructures.

拓扑诱导二维铁磁 Fe3GeTe2|Bi2Te3 异质结构中太赫兹自旋电流的产生和控制。

7.A Novel Technique for Controlling Anisotropic Ion Diffusion: Bulk Single-Crystalline Metallic Silicon Clathrate.

控制各向异性离子扩散的新技术：块状单晶金属硅包合物。

8.Multifunctional Biomimetic Nanovaccines Based on Photothermal and Weak-Immunostimulatory Nanoparticulate Cores for the Immunotherapy of Solid Tumors.

基于光热和弱免疫刺激纳米颗粒核心的多功能仿生纳米疫苗，用于实体瘤的免疫治疗。

9.Multifunctional Nanomachinery for Enhancement of Bone Healing.

用于增强骨愈合的多功能纳米机械。

10.A Programmable Dual-Regime Spray for Large-Scale and Custom-Designed Electronic Textiles.

用于大型和定制设计的电子纺织品的可编程双模式喷雾。

11.Endogenous Electric-Field-Coupled Electrospun Short Fiber via Collecting Wound Exudation.

通过收集伤口渗出物的内源电场耦合静电纺短纤维。

12.Single-, Dual-, Triple, and Quadruple-Wavelength Surface-Emitting Lasing in Blue-Phase Liquid Crystal.

蓝相液晶中的单波长、双波长、三波长和四波长表面发射激光。

13.Supramolecular Reinforcement of Polymer–Nanoparticle Hydrogels for Modular Materials Design.

用于模块化材料设计的聚合物纳米粒子水凝胶的超分子增强。

14.Record-High Superconductivity in Transition Metal Dichalcogenides Emerged in Compressed 2H-TaS2.

压缩的 2H-TaS2 中出现了创纪录的高超导性。

15.Inverse Design of Ferroelectric-Order in Perovskite Crystal for Self-Powered Ultraviolet Photodetection.

用于自供电紫外光电检测的钙钛矿晶体中铁电序的逆设计。

16.Enabling Anionic Redox Stability of P2-Na5/6Li1/4Mn3/4O2 by Mg Substitution.

通过镁取代实现 P2-Na5/6Li1/4Mn3/4O2 的阴离子氧化还原稳定性。

17.Boosting Reversibility and Stability of Li Storage in SnO2–Mo Multilayers: Introduction of Interfacial Oxygen Redistribution.

提高 SnO2-Mo 多层中锂存储的可逆性和稳定性：引入界面氧重新分布。

18.Nanovesicle-Mediated Targeted Delivery of Immune Checkpoint Blockades to Potentiate Therapeutic Efficacy and Prevent Side Effects.

纳米囊泡介导的免疫检查点阻断的靶向递送以增强治疗功效并防止副作用。

19.Toward Exotic Layered Materials: 2D Cuprous Iodide.

走向奇异的层状材料：二维碘化亚铜。

20.Highly Bright AIE Nanoparticles by Regulating the Substituent of Rhodanine for Precise Early Detection of Atherosclerosis and Drug Screening.

通过调节绕丹宁取代基的高亮度AIE纳米粒子用于动脉粥样硬化的精确早期检测和药物筛选。

21.A Flexible and Degradable Hybrid Mineral as a Plastic Substitute.

一种灵活且可降解的混合矿物作为塑料替代品。

22.Differential Polymer Chain Scission Enables Free-Standing Microcavity Laser Arrays.

差异聚合物断链可实现独立式微腔激光阵列。

23.Liquid Crystal Elastomer Twist Fibers toward Rotating Microengines.

液晶弹性体将纤维扭向旋转微型发动机。

24.Additive-Free, Low-Temperature Crystallization of Stable α-FAPbI3 Perovskite.

稳定 α-FAPbI3 钙钛矿的无添加剂低温结晶。

25.Designing Angstrom-Scale Asymmetric MOF-on-MOF Cavities for High Monovalent Ion Selectivity.

设计埃级不对称 MOF-on-MOF 腔以实现高单价离子选择性。

26.Achieving Ultimate Narrowband and Ultrapure Blue Organic Light-Emitting Diodes Based on Polycyclo-Heteraborin Multi-Resonance Delayed-Fluorescence Emitters.

基于多环杂硼酸多共振延迟荧光发射器实现终极窄带和超纯蓝色有机发光二极管。

27.Diradical-Featured Organic Small-Molecule Photothermal Material with High-Spin State in Dimers for Ultra-Broadband Solar Energy Harvesting.

用于超宽带太阳能收集的二聚体高自旋态双自由基有机小分子光热材料。

28.Orchestrated Yolk–Shell Nanohybrids Regulate Macrophage Polarization and Dendritic Cell Maturation for Oncotherapy with Augmented Antitumor Immunity.

精心设计的卵黄壳纳米杂交体调节巨噬细胞极化和树突状细胞成熟，用于增强抗肿瘤免疫的肿瘤治疗。

29.Artificial Nacre with High Toughness Amplification Factor: Residual Stress-Engineering Sparks Enhanced Extrinsic Toughening Mechanisms.

具有高韧性放大系数的人造珍珠层：残余应力工程火花增强的外在增韧机制。

30.High-Performance Memristors Based on Ultrathin 2D Copper Chalcogenides.

基于超薄二维铜硫属化物的高性能忆阻器。

31.Temperature-Insensitive Efficient Inorganic Perovskite Photovoltaics by Bulk Heterojunctions.

通过体异质结实现对温度不敏感的高效无机钙钛矿光伏。

32.Surfaces Decorated with Enantiomorphically Pure Polymer Nanohelices via Hierarchical Chirality Transfer across Multiple Length Scales.

通过跨多个长度尺度的分层手性传递用对映纯聚合物纳米螺旋装饰表面。

33.Miniaturized Multispectral Detector Derived from Gradient Response Units on Single MAPbX3 Microwire.

由单 MAPbX3 微线上的梯度响应单元衍生的小型化多光谱探测器。

34.Rapid Identification of DNA Fragments through Direct Sequencing with Electro-Optical Zero-Mode Waveguides.

通过电光零模波导直接测序快速识别 DNA 片段。

35.Engineering Metallic Heterostructure Based on Ni3N and 2M-MoS2 for Alkaline Water Electrolysis with Industry-Compatible Current Density and Stability.

基于 Ni3N 和 2M-MoS2 的工程金属异质结构，用于碱性水电解，具有工业兼容的电流密度和稳定性。

36.A PF6−-Permselective Polymer Electrolyte with Anion Solvation Regulation Enabling Long-Cycle Dual-Ion Battery.

具有阴离子溶剂化调节功能的 PF6−-选择性渗透聚合物电解质，可实现长循环双离子电池。

37.Photopatternable Porous Separators for Micro-Electrochemical Energy Storage Systems.

用于微电化学储能系统的可光图案化多孔隔膜。

38.Replicating the Cynandra opis Butterfly's Structural Color for Bioinspired Bigrating Color Filters.

复制 Cynandra opis Butterfly 的结构颜色，用于仿生大光栅彩色滤光片。

39.Intracellular Self-Immolative Polyprodrug with Near-Infrared Light Guided Accumulation and in Vivo Visualization of Drug Release.

具有近红外光引导积累的细胞内自焚聚前药和药物释放的体内可视化。

40.A Universal Cosolvent Evaporation Strategy Enables Direct Printing of Perovskite Single Crystals for Optoelectronic Device Applications.

通用共溶剂蒸发策略可直接打印用于光电器件应用的钙钛矿单晶。

41.Near-Infrared Materials: The Turning Point of Organic Photovoltaics.

近红外材料：有机光伏的转折点。

42.Recent Progress in Materials Chemistry to Advance Flexible Bioelectronics in Medicine.

材料化学的最新进展促进医学中的柔性生物电子学。

43.Colloidal Metal-Halide Perovskite Nanoplatelets: Thickness-Controlled Synthesis, Properties, and Application in Light-Emitting Diodes.

胶体金属卤化物钙钛矿纳米片：厚度控制的合成、性能及其在发光二极管中的应用。

44.Copper-Free Click Chemistry: Applications in Drug Delivery, Cell Tracking, and Tissue Engineering.

无铜点击化学：在药物输送、细胞追踪和组织工程中的应用。

45.Enzyme-Programmable Microgel Lasers for Information Encoding and Anti-Counterfeiting.

用于信息编码和防伪的酶可编程微凝胶激光器。

46.Fully Synthetic 3D Fibrous Scaffolds for Stromal Tissues—Replacement of Animal-Derived Scaffold Materials Demonstrated by Multilayered Skin.

用于基质组织的全合成 3D 纤维支架——多层皮肤演示的动物源性支架材料的替代。

47.Treatment of Ruptured and Nonruptured Aneurysms Using a Semisolid Iodinated Embolic Agent.

使用半固体碘化栓塞剂治疗破裂和非破裂动脉瘤。

48.Oxide/ZIF-8 Hybrid Nanofiber Yarns: Heightened Surface Activity for Exceptional Chemiresistive Sensing.

氧化物/ZIF-8 混合纳米纤维纱线：增强的表面活性，实现卓越的化学电阻传感。

49.Unraveling Heat Transport and Dissipation in Suspended MoSe2 from Bulk to Monolayer.

揭示悬浮 MoSe2 从块状到单层的热传输和耗散。

50.A Wearable Microneedle-Based Extended Gate Transistor for Real-Time Detection of Sodium in Interstitial Fluids.

一种基于可穿戴微针的扩展栅极晶体管，用于实时检测间质液中的钠。

51.Multiferroic-Enabled Magnetic-Excitons in 2D Quantum-Entangled Van der Waals Antiferromagnet NiI2.

二维量子纠缠范德华反铁磁体 NiI2 中的多铁性磁激子。

52.Machine Learning Guided Dopant Selection for Metal Oxide-Based Photoelectrochemical Water Splitting: The Case Study of Fe2O3 and CuO.

机器学习引导的金属氧化物光电化学水分解掺杂剂选择：Fe2O3 和 CuO 的案例研究。

53.High Photocatalytic Oxygen Evolution via Strong Built-In Electric Field Induced by High Crystallinity of Perylene Imide Supramolecule.

苝酰亚胺超分子的高结晶度诱导强内置电场产生高光催化氧气。

54.Sunlight-Coordinated High-Performance Moisture Power in Natural Conditions.

自然条件下阳光协调的高性能保湿力。

55.Active and Passive Tuning of Ultranarrow Resonances in Polaritonic Nanoantennas.

极化纳米天线中超窄共振的主动和被动调谐。

56.Engineering Radiosensitizer-Based Metal-Phenolic Networks Potentiate STING Pathway Activation for Advanced Radiotherapy.

基于放射增敏剂的金属酚醛网络工程可增强先进放射治疗中 STING 通路的激活。

57.A New Durable Surface Nanoparticles-Modified Perovskite Cathode for Protonic Ceramic Fuel Cells from Selective Cation Exsolution under Oxidizing Atmosphere.

一种新型耐用表面纳米颗粒改性钙钛矿阴极，用于氧化气氛下选择性阳离子溶出的质子陶瓷燃料电池。

58.Escalating Ferromagnetic Order via Se-Vacancies Near Vanadium in WSe2 Monolayers.

通过 WSe2 单层中钒附近的 Se 空位提升铁磁有序度。

59.Light-Triggered Efficient Sequential Drug Delivery of Biomimetic Nanosystem for Multimodal Chemo-, Antiangiogenic, and Anti-MDSC Therapy in Melanoma.

仿生纳米系统的光触发高效顺序药物输送，用于黑色素瘤的多模式化疗、抗血管生成和抗 MDSC 治疗。