【標題速讀】【Advmat】【2022年】【8月】

2023-07-13 09:47 作者:Rt_Cola 0人讀過 | 我要投稿

聲明：本專欄主要對生命科學領(lǐng)域的一些期刊文章標題進行翻譯，所有內(nèi)容均由本人手工整理翻譯。由于本人專業(yè)為生物分析相關(guān)，其他領(lǐng)域如果出現(xiàn)翻譯錯誤請諒解。

Electronic Skin

In article number 2202622, by integrating the triboelectric effect with the supercapacitive iontronic effect, Yang Li, Guozhen Shen, and co-workers report an artificial intelligence (AI)-motivated full-skin bionic (FSB) e-skin based on bionic vellus hair and epidermis–dermis–hypodermis double interlocked microcone structures and demonstrate its smart application prospects from tactile perception to advanced intelligent tactile cognition.

電子皮膚

在2202622號文章中，通過將摩擦電效應與超級電容離子電子效應相結(jié)合，楊麗，沈國珍，及其同事報道了一種基于仿生絨毛和表皮-真皮-皮下雙重互鎖微通道結(jié)構(gòu)的人工智能（AI）驅(qū)動的全皮仿生（FSB）電子皮膚，并展示了其從觸覺到高級智能觸覺認知的智能應用前景。

Photoactive Materials

Next-generation photovoltaics will be lightweight, flexible, and (semi)transparent. Highly transparent organic photoactive materials are reported by Thuc-Quyen Nguyen, Viktor Brus, and co-workers in article number 2203796. The changes in the fundamental processes in solar cells comprising a near-IR-absorbing acceptor and a visible-light-absorbing donor are revealed upon dilution of the donor material, paving the way for integrated energy-harvesting solutions based on semitransparent organic photovoltaics.

光活性材料

下一代光伏將是輕質(zhì)、柔性和（半透明）的。Thuc Quyen Nguyen、Viktor Brus及其同事在文章編號2203796中報道了高度透明的有機光活性材料。包括近紅外吸收受體和可見光吸收供體的太陽能電池的基本過程的變化在供體材料稀釋后被揭示，為基于半透明有機光伏的集成能量收集解決方案鋪平了道路。

Superhydrophobic Coatings

A skin-inspired triple-layered superhydrophobic coating concept is proposed by Libin Liu, Zuankai Wang, and co-workers in article number 2203792. By a facile step-by-step spraying process and careful control of the components of each layer, continuous interfaces within layers are achieved, endowing the integration of superhydrophobicity, excellent abrasion resistance, and flame retardancy into one coating.

超疏水涂料

Libin Liu、Zuankai Wang及其同事在2203792號文章中提出了一種受皮膚啟發(fā)的三層超疏水涂層概念。通過簡單的分步噴涂過程和對每層成分的仔細控制，實現(xiàn)了層內(nèi)連續(xù)的界面，將超疏水性、優(yōu)異的耐磨性和阻燃性整合到一層涂層中。

Stretchable Organic Solar Cells

A comprehensive overview of fully stretchable organic solar cells (f-SOSCs), including essential studies to make each layer of f-SOSCs stretchable and efficient, is provided by Jung-Yong Lee, Bumjoon J. Kim, and co-workers in article number 2201623. Strategies to simultaneously enhance the photovoltaic and mechanical properties of the active layer, ranging from material design to fabrication control, are emphasized.

可拉伸有機太陽能電池

Jung Yong Lee、Bumjoon J.Kim及其同事在文章編號2201623中提供了完全可拉伸有機太陽能電池（f-SOSC）的全面概述，包括使每層f-SOSC可拉伸和高效的基本研究。從材料設計到制造控制，強調(diào)了同時增強有源層的光伏和機械性能的策略。

Organic Light-Emitting Diodes

Intrinsically stretchable light-emitting diodes (ISOLEDs) are becoming increasingly important for wearable electronics. In article number 2203040, Han-Young Woo, Tae-Woo Lee, and co-workers report the design of highly efficient ISOLEDs that use a graphene-based 2D-contact stretchable electrode. As a benefit of a newly designed conjugated polyelectrolyte with efficient electron injection capability, the ISOLED yields an unprecedently high current efficiency of 20.3 cd A?1.

有機發(fā)光二極管

本質(zhì)可拉伸發(fā)光二極管 (ISOLED) 對于可穿戴電子產(chǎn)品變得越來越重要。在第 2203040 號文章中，Han-Young Woo、Tae-Woo Lee 及其同事報告了使用基于石墨烯的 2D 接觸可拉伸電極的高效 ISOLED 的設計。由于新設計的共軛聚電解質(zhì)具有高效的電子注入能力，ISOLED 產(chǎn)生了 20.3 cd A?1 的前所未有的高電流效率。

Organic Light-Emitting Diodes

In article number 2202866, Chul Hoon Kim, Kyoung-Ho Kim, Seung Yoon Ryu, and co-workers demonstrate a unique and abnormal approach for organic light-emitting diodes (OLEDs) to enhance the external quantum efficiency using the antibiotic ampicillin. Electroluminescence and photoluminescence and scattering by the ampicillin microstructure make highly efficient top-emission OLEDs possible. The application of the antibiotic to OLEDs widens the scalability of various materials for optoelectronic devices.

有機發(fā)光二極管

在第 2202866 號文章中，Chul Hoon Kim、Kyoung-Ho Kim、Seung Yoon Ryu 及其同事展示了一種獨特且異常的有機發(fā)光二極管 (OLED) 方法，可使用抗生素氨芐西林提高外部量子效率。氨芐青霉素微結(jié)構(gòu)的電致發(fā)光、光致發(fā)光和散射使高效頂發(fā)射 OLED 成為可能。抗生素在OLED中的應用拓寬了光電器件各種材料的可擴展性。

3D Printing

In article number 2203878, Kunal Masania, André R. Studart, and co-workers present a light 3D-printable salt ink as a sacrificial template for the shaping of complex materials. This offers unprecedented shaping freedom to hard-to-print materials such as magnesium for resorbable bone implants, or polystyrene and polycaprolactone for 3D cell culture scaffolds.

3D打印

在第 2203878 號文章中，Kunal Masania、André R. Studart 及其同事展示了一種輕型 3D 打印鹽墨水，作為復雜材料成型的犧牲模板。這為難以打印的材料提供了前所未有的成型自由度，例如用于可吸收骨植入物的鎂，或用于 3D 細胞培養(yǎng)支架的聚苯乙烯和聚己內(nèi)酯。

Quantum Conductance

In article number 2201248, Gianluca Milano, Ilia Valov, and co-workers review the state-of-the-art of quantum conductance effects in memristive devices. Besides analyzing fundamental physicochemical phenomena and electronic ballistic transport in nanofilaments, recent developments in experimental observation of quantum effects in memristive devices and related challenges are discussed. Representing suitable platforms for investigating quantum phenomena at room temperature, future perspectives of memristive devices in quantum and neuromorphic systems are envisioned.

量子電導

在第 2201248 號文章中，Gianluca Milano、Ilia Valov 及其同事回顧了憶阻器件中量子電導效應的最新技術(shù)。除了分析納米絲中的基本物理化學現(xiàn)象和電子彈道輸運之外，還討論了憶阻器件中量子效應實驗觀察的最新進展以及相關(guān)挑戰(zhàn)。代表了在室溫下研究量子現(xiàn)象的合適平臺，展望了量子和神經(jīng)形態(tài)系統(tǒng)中憶阻器件的未來前景。

E-Tattoos

In article number 2204159, Hyung-Ryong Kim, Jae-Woong Jeong, Steve Park, and co-workers introduce a new class of e-tattoo that can be implemented on-the-fly according to users' demands. To realize intimate, compact, and rapid assembly of intrinsically conductive and durable EGaIn composites, ethanol-based ink is developed. Demonstrations of wearable bioelectronics confirm the validity of the e-tattoo in healthcare.

電子紋身

在第 2204159 號文章中，Hyung-Ryong Kim、Jae-Woong Jeong、Steve Park 及其同事介紹了一種新型電子紋身，可以根據(jù)用戶的需求即時實施。為了實現(xiàn)本質(zhì)導電且耐用的 EGaIn 復合材料的緊密、緊湊和快速組裝，開發(fā)了乙醇基墨水。可穿戴生物電子學的演示證實了電子紋身在醫(yī)療保健中的有效性。

Solid-State Electrolytes

In article number 2110333, Lynden A. Archer and co-workers describe how polymerization of 1,3-dioxolane, containing hairy nanoparticles of poly(ethylene glycol) chains densely grafted to SiO2 nanocores, inside an electrochemical cell, creates hybrid solid-state electrolytes that offer enhanced wettability and additional degrees of freedom for regulating ionic transport pathways in the bulk and at interfaces in solid-state battery cells.

固態(tài)電解質(zhì)

在第2110333號文章中，Lynden A.Archer及其同事描述了1，3-二氧戊環(huán)如何在電化學電池內(nèi)聚合，該聚合包含緊密接枝到SiO2納米核上的聚（乙二醇）鏈的毛狀納米顆粒，創(chuàng)造了混合固態(tài)電解質(zhì)，該電解質(zhì)提供了增強的潤濕性和額外的自由度，用于調(diào)節(jié)固態(tài)電池單元中本體和界面處的離子傳輸路徑。

Plasmon Dispersion of MXenes

Plasmons in MXenes play a role in electromagnetic absorption, but the effect has never been quantitatively analyzed due to the lack of plasmon dispersion. In article number 2201120, Xiaoxia Yang, Peng Gao, Qing Dai, and co-workers report the use of high-spatial-resolution electron-energy-loss spectroscopy to measure the plasmon dispersion of suspended MXenes. These ultrathin MXenes with broadband absorption provide a promising platform for high-performance optoelectronic devices.

MXene 的等離子分散

MXene 中的等離激元在電磁吸收中發(fā)揮作用，但由于缺乏等離激元色散，這種效應從未被定量分析過。在第 2201120 號文章中，Xiaoxia Yang、Peng Gau、Qing Dai 及其同事報告了使用高空間分辨率電子能量損失光譜來測量懸浮 MXene 的等離激元色散。這些具有寬帶吸收功能的超薄 MXene 為高性能光電器件提供了一個有前景的平臺。

Organic Solar Cells

Forming an ideal bulk heterojunction morphology is a critical issue governing the photon to electron process in organic solar cells (OSCs). In article number 2203379, Lijian Zuo, Hongzheng Chen, and co-workers show how sequential-casting (SC) processing is practical and universal for improvement of device performance in both fullerene- and nonfullerene-based systems, in which the donor and acceptor are deposited sequentially. The fabricated OSCs show advantages regarding device performance, photostability and upscale fabrication. Such a film spin-coating method is analogous to the traditional Chinese pancake making process.

有機太陽能電池

形成理想的體異質(zhì)結(jié)形態(tài)是控制有機太陽能電池（OSCs）中光子到電子過程的關(guān)鍵問題。在編號為2203379的文章中，左立堅、陳宏正及其同事展示了順序鑄造（SC）工藝如何在富勒烯和非富勒烯基系統(tǒng)中提高器件性能是實用和通用的，其中供體和受體順序沉積。所制造的OSC在器件性能、光穩(wěn)定性和高檔制造方面顯示出優(yōu)勢。這種薄膜旋涂法類似于中國傳統(tǒng)的煎餅制作工藝。

Respiratory Monitoring

In article number 2203310, Yasin Cotur, Firat Güder, and co-workers demonstrate a bioinspired stretchable sensor suitable that does not require shaving, for use with animals, for monitoring respiration in continuous physiological measurements. The sensor is extensively characterized with humans, dogs, and laboratory rats to provide an unobtrusive alternative to current health monitors that can function over clothing or fur.

呼吸監(jiān)測

在第 2203310 號文章中，Yasin Cotur、Firat Güder 及其同事展示了一種仿生可拉伸傳感器，無需剃須，適用于動物，用于在連續(xù)生理測量中監(jiān)測呼吸。該傳感器廣泛用于人類、狗和實驗室老鼠，為當前可在衣服或皮毛上運行的健康監(jiān)測器提供了一種不引人注目的替代方案。

Microspectrometers

In article number 2200221, Haoxuan Sun, Liang Li, and co-workers demonstrate a new perovskite spectrometer design that is free from any optical or mechanical components and only requires one detection point. Such a spectrometer design breaks the long-standing restriction of footprint-resolution, and represents an advance for hyperspectral imaging.

微型光譜儀

在第 2200221 號文章中，Haoxuan Sun、Liang Li 及其同事展示了一種新型鈣鈦礦光譜儀設計，該設計沒有任何光學或機械組件，僅需要一個檢測點。這種光譜儀設計打破了足跡分辨率的長期限制，代表了高光譜成像的進步。

Redox Flow Cells

In article number 2202266, Qing Wang and co-workers report an activity-regulated redox flow cell for high-efficiency low-grade waste-heat harnessing. With a thermally regenerative electrochemical cycle, thermal energy from solar/geothermal or industrial waste heat is constantly converted into electricity at high efficiency.

氧化還原流通池

在第 2202266 號文章中，Qing Wang 及其同事報告了一種用于高效低品位廢熱利用的活性調(diào)節(jié)氧化還原流動電池。通過熱再生電化學循環(huán)，來自太陽能/地熱或工業(yè)廢熱的熱能不斷高效地轉(zhuǎn)化為電能。

Ferroelectric Materials

In article number 2204356, Ruzhong Zuo, Zhengqian Fu, Xiaoguang Li, Shujun Zhang, and co-workers report supercritical relaxor nanograined ferroelectrics for ultrahigh-energy-storage capacitors. The supercritical behavior, corresponding to the continuous reorientation of polar nanoregions but a negligible change in their size, can be achieved by engineering coexisted multiple local symmetries within the ergodic relaxor zone.

鐵電材料

在文章編號 2204356 中，Ruzhong Zuo、Zhengqian Fu、Xiaoguang Li、Shujun Zhang 及其同事報告了用于超高能量存儲電容器的超臨界弛豫納米晶鐵電體。超臨界行為對應于極性納米區(qū)域的連續(xù)重新定向，但其尺寸變化可以忽略不計，可以通過設計遍歷松弛區(qū)域內(nèi)共存的多個局部對稱性來實現(xiàn)。

Printed Tough Hydrogels

In article number 2204333, Zi Liang Wu and co-workers demonstrate Digital Light Processing 3D printing of supramolecular hydrogels into sophisticated architectures with “bottom-up” projection approach. Fast gelation and toughening are realized during the printing by in situ formation of coordination complexes as physical crosslinks of the gel matrix, enabling high-efficiency processing of tough hydrogels as structural elements.

打印堅韌水凝膠

在第 2204333 號文章中，Ziliang Wu 及其同事演示了通過“自下而上”投影方法將超分子水凝膠數(shù)字光處理 3D 打印成復雜的結(jié)構(gòu)。在打印過程中，通過原位形成配位絡合物作為凝膠基質(zhì)的物理交聯(lián)，實現(xiàn)快速凝膠化和增韌，從而能夠高效加工作為結(jié)構(gòu)元素的堅韌水凝膠。

Lithium-Metal Anodes

In article number 2203992, Jae Young Seok, Sang Ouk Kim, and co-workers introduce an ultrathin multilayered protective layer under 1 μm, composed of lithiophilic Ag nanoparticle seeds, a 2D Li-suppressing reduced graphene oxide (rGO) layer, and vertically porous block copolymer self-assembled nanochannels for lithium-metal anodes. The synergetic integration of each component enhances the mechanical robustness by stress relaxation, and homogenizes the Li-ion flux at the same time. As a result, stabilized Li growth with a smooth interface and outstanding cycling stability can be achieved.

鋰金屬陽極

在文章編號2203992中，Jae Young Seok、Sang Ouk Kim及其同事介紹了一種1μm以下的超薄多層保護層，由親鋰Ag納米顆粒種子、2D抑制Li的還原氧化石墨烯（rGO）層和用于鋰金屬陽極的垂直多孔嵌段共聚物自組裝納米通道組成。各成分的協(xié)同集成通過應力松弛增強了機械魯棒性，同時使鋰離子通量均勻化。結(jié)果，可以實現(xiàn)具有光滑界面的穩(wěn)定的Li生長和優(yōu)異的循環(huán)穩(wěn)定性。

Nanowires

In article number 2200656, Donglei Emma Fan, Yuebing Zheng, and co-workers achieve strong coupling between excitons and Mie resonances in chemically synthesized transition metal dichalcogenide nanowires. The coupling-induced optical responses are further modulated in a reversible way, enabling a new class of tunable photonic devices.

納米線

在文章編號 2200656 中，Donglei Emma Fan、Yuebing Cheng 及其同事在化學合成的過渡金屬二硫?qū)倩锛{米線中實現(xiàn)了激子和米氏共振之間的強耦合。耦合引起的光學響應以可逆的方式進一步調(diào)制，從而實現(xiàn)了新型可調(diào)諧光子器件。

1.Inkjet Printing and 3D Printing Strategies for Biosensing, Analytical, and Diagnostic Applications.

用于生物傳感、分析和診斷應用的噴墨打印和 3D 打印策略。

2.Material Design and Device Fabrication Strategies for Stretchable Organic Solar Cells.

可拉伸有機太陽能電池的材料設計和器件制造策略。

3.Noble-Metal-Based Hollow Mesoporous Nanoparticles: Synthesis Strategies and Applications.

貴金屬基中空介孔納米顆粒：合成策略和應用。

4.Perception-to-Cognition Tactile Sensing Based on Artificial-Intelligence-Motivated Human Full-Skin Bionic Electronic Skin.

基于人工智能驅(qū)動的人體全皮仿生電子皮膚的感知到認知觸覺傳感。

5.Unraveling Device Physics of Dilute-Donor Narrow-Bandgap Organic Solar Cells with Highly Transparent Active Layers.

揭示具有高度透明活性層的稀供體窄帶隙有機太陽能電池的器件物理特性。

6.A Skin-Inspired Design Integrating Mechano–Chemical–Thermal Robustness into Superhydrophobic Coatings.

受皮膚啟發(fā)的設計將機械-化學-熱魯棒性集成到超疏水涂層中。

7.Graphene-Based Intrinsically Stretchable 2D-Contact Electrodes for Highly Efficient Organic Light-Emitting Diodes.

用于高效有機發(fā)光二極管的基于石墨烯的本質(zhì)可拉伸二維接觸電極。

8.A Euryhaline-Fish-Inspired Salinity Self-Adaptive Nanofluidic Diode Leads to High-Performance Blue Energy Harvesters.

受廣鹽魚啟發(fā)的鹽度自適應納流二極管可實現(xiàn)高性能藍色能量收集器。

9.Topological Crystalline Insulator Candidate ErAsS with Hourglass Fermion and Magnetic-Tuned Topological Phase Transition.

具有沙漏費米子和磁調(diào)諧拓撲相變的拓撲晶體絕緣體候選 ErAsS。

10.Defect-Rich Molybdenum Sulfide Quantum Dots for Amplified Photoluminescence and Photonics-Driven Reactive Oxygen Species Generation.

用于放大光致發(fā)光和光子驅(qū)動活性氧生成的富缺陷硫化鉬量子點。

11.All-Aqueous Freeform Fabrication of Perfusable Self-Standing Soft Compartments.

可灌注自立式軟室的全水自由形態(tài)制造。

12.Sugar-Derived Isotropic Nanoscale Polycrystalline Graphite Capable of Considerable Plastic Deformation.

糖衍生的各向同性納米級多晶石墨能夠產(chǎn)生相當大的塑性變形。

13.Asymmetrically Enhanced Coplanar-Electrode Electroluminescence for Information Encryption and Ultrahighly Stretchable Displays.

用于信息加密和超高可拉伸顯示器的不對稱增強共面電極電致發(fā)光。

14.Uneven Stripping Behavior, an Unheeded Killer of Mg Anodes.

不均勻的剝離行為是鎂陽極被忽視的殺手。

15.Designing Rewritable Dual-Mode Patterns using a Stretchable Photoresponsive Polymer via Orthogonal Photopatterning.

通過正交光圖案化使用可拉伸光響應聚合物設計可重寫雙模式圖案。

16.Accessing Excitation- and Time-Responsive Afterglows from Aqueous Processable Amorphous Polymer Films through Doping and Energy Transfer.

通過摻雜和能量轉(zhuǎn)移從水性可加工非晶聚合物薄膜中獲取激發(fā)和時間響應余輝。

17.The Non-Classical Crystallization Mechanism of a Composite Biogenic Guanine Crystal.

復合生物鳥嘌呤晶體的非經(jīng)典結(jié)晶機制。

18.Observation of Topological Edge States in Thermal Diffusion.

熱擴散中拓撲邊緣態(tài)的觀察。

19.Highly Selective Adsorption of Perfluorinated Greenhouse Gases by Porous Organic Cages.

多孔有機籠對全氟化溫室氣體的高選擇性吸附。

20.Rhombohedral Pd–Sb Nanoplates with Pd-Terminated Surface: An Efficient Bifunctional Fuel-Cell Catalyst.

具有 Pd 封端表面的菱形 Pd-Sb 納米板：一種高效的雙功能燃料電池催化劑。

21.Electrochemical Construction of Edge-Contacted Metal-Semiconductor Junctions with Low Contact Barrier.

具有低接觸勢壘的邊緣接觸金屬-半導體結(jié)的電化學構(gòu)造。

22.Atomic and Electronic Manipulation of Robust Ferroelectric Polymorphs.

魯棒鐵電多晶型物的原子和電子操控。

23.Nonhalogenated Dual-Slot-Die Processing Enables High-Efficiency Organic Solar Cells.

非鹵化雙槽模具加工可實現(xiàn)高效有機太陽能電池。

24.Brushed Metals for Rechargeable Metal Batteries.

用于可充電金屬電池的拉絲金屬。

25.Recording Temperature with Magnetic Supraparticles.

用磁性超粒子記錄溫度。

26.Intracellular Crowding by Bio-Orthogonal Hydrogel Formation Induces Reversible Molecular Stasis.

生物正交水凝膠形成引起的細胞內(nèi)擁擠誘導可逆的分子停滯。

27.Single-Atom Iron Anchored Tubular g-C3N4 Catalysts for Ultrafast Fenton-Like Reaction: Roles of High-Valency Iron-Oxo Species and Organic Radicals.

用于超快類芬頓反應的單原子鐵錨定管狀 g-C3N4 催化劑：高價鐵氧化物質(zhì)和有機自由基的作用。

28.An Encapsulation-Based Sodium Storage via Zn-Single-Atom Implanted Carbon Nanotubes.

通過鋅單原子植入碳納米管進行基于封裝的鈉存儲。

29.Stable and Bright Electroluminescent Devices utilizing Emissive 0D Perovskite Nanocrystals Incorporated in a 3D CsPbBr3 Matrix.

利用結(jié)合在 3D CsPbBr3 矩陣中的發(fā)射 0D 鈣鈦礦納米晶體的穩(wěn)定且明亮的電致發(fā)光器件。

30.3R Electronics: Scalable Fabrication of Resilient, Repairable, and Recyclable Soft-Matter Electronics.

3R 電子產(chǎn)品：彈性、可修復和可回收的軟物質(zhì)電子產(chǎn)品的可擴展制造。

31.Revealing the Structural Coloration of Self-Assembled Chitin Nanocrystal Films.

揭示自組裝甲殼素納米晶體薄膜的結(jié)構(gòu)著色。

32.Semiconducting Polymer Nanoparticles with Surface-Mimicking Protein Secondary Structure as Lysosome-Targeting Chimaeras for Self-Synergistic Cancer Immunotherapy.

具有表面模擬蛋白質(zhì)二級結(jié)構(gòu)的半導體聚合物納米顆粒作為溶酶體靶向嵌合體，用于自我協(xié)同癌癥免疫治療。

33.Integrating SEI into Layered Conductive Polymer Coatings for Ultrastable Silicon Anodes.

將 SEI 集成到層狀導電聚合物涂層中，用于超穩(wěn)定硅陽極。

34.Composition-Dependent Enzyme Mimicking Activity and Radiosensitizing Effect of Bimetallic Clusters to Modulate Tumor Hypoxia for Enhanced Cancer Therapy.

雙金屬簇調(diào)節(jié)腫瘤缺氧以增強癌癥治療的成分依賴性酶模擬活性和放射增敏作用。

35.A Snakeskin-Inspired, Soft-Hinge Kirigami Metamaterial for Self-Adaptive Conformal Electronic Armor.

一種受蛇皮啟發(fā)的軟鉸鏈剪紙超材料，用于自適應共形電子裝甲。

36.Delivering Mechanical Stimulation to Cells: State of the Art in Materials and Devices Design.

向細胞提供機械刺激：材料和設備設計的最新技術(shù)。

37.Quantum Conductance in Memristive Devices: Fundamentals, Developments, and Applications.

憶阻器件中的量子電導：基礎知識、發(fā)展和應用。

38.Gas Separations using Nanoporous Atomically Thin Membranes: Recent Theoretical, Simulation, and Experimental Advances.

使用納米多孔原子薄膜進行氣體分離：最新理論、模擬和實驗進展。

39.Efficient Photon Extraction in Top-Emission Organic Light-Emitting Devices Based on Ampicillin Microstructures.

基于氨芐青霉素微結(jié)構(gòu)的頂發(fā)射有機發(fā)光器件中的高效光子提取。

40.Light-Based Printing of Leachable Salt Molds for Facile Shaping of Complex Structures.

可浸出鹽模具的光基打印，可輕松塑造復雜結(jié)構(gòu)。

41.A Personalized Electronic Tattoo for Healthcare Realized by On-the-Spot Assembly of an Intrinsically Conductive and Durable Liquid-Metal Composite.

通過現(xiàn)場組裝本質(zhì)導電且耐用的液態(tài)金屬復合材料來實現(xiàn)用于醫(yī)療保健的個性化電子紋身。

42.Structure and Evolution of Quasi-Solid-State Hybrid Electrolytes Formed Inside Electrochemical Cells.

電化學電池內(nèi)部形成的準固態(tài)混合電解質(zhì)的結(jié)構(gòu)和演化。

43.Room-Temperature Annealing-Free Gold Printing via Anion-Assisted Photochemical Deposition.

通過陰離子輔助光化學沉積進行室溫免退火金印刷。

44.Not All Aggregates Are Made the Same: Distinct Structures of Solution Aggregates Drastically Modulate Assembly Pathways, Morphology, and Electronic Properties of Conjugated Polymers.

并非所有聚集體都是相同的：溶液聚集體的獨特結(jié)構(gòu)極大地調(diào)節(jié)共軛聚合物的組裝途徑、形態(tài)和電子特性。

45.Magneto–Electric–Optical Coupling in Multiferroic BiFeO3-Based Films.

多鐵性 BiFeO3 基薄膜中的磁電光耦合。

46.Three-Tier Hierarchical Structures for Extreme Pool Boiling Heat Transfer Performance.

三層分層結(jié)構(gòu)，實現(xiàn)極致的池沸騰傳熱性能。

47.Ultrahigh Kinetic Inductance Superconducting Materials from Spinodal Decomposition.

來自旋節(jié)線分解的超高動感超導材料。

48.Development of Pure Green Thermally Activated Delayed Fluorescence Material by Cyano Substitution.

通過氰基取代開發(fā)純綠色熱激活延遲熒光材料。

49.Concentrated Electrolytes Enabling Stable Aqueous Ammonium-Ion Batteries.

濃縮電解質(zhì)可實現(xiàn)穩(wěn)定的水性銨離子電池。

50.Achieving 19% Power Conversion Efficiency in Planar-Mixed Heterojunction Organic Solar Cells Using a Pseudosymmetric Electron Acceptor.

使用偽對稱電子受體在平面混合異質(zhì)結(jié)有機太陽能電池中實現(xiàn) 19% 的功率轉(zhuǎn)換效率。

51.Ion–Dipole Interaction Regulation Enables High-Performance Single-Ion Polymer Conductors for Solid-State Batteries.

離子偶極子相互作用調(diào)節(jié)為固態(tài)電池提供高性能單離子聚合物導體。

52.Geometric Phase and Localized Heat Diffusion.

幾何相位和局部熱擴散。

53.Conformation Dynamics of Single Polymer Strands in Solution.

溶液中單聚合物鏈的構(gòu)象動力學。

54.Tensile-Strained Palladium Nanosheets for Synthetic Catalytic Therapy and Phototherapy.

用于合成催化療法和光療法的拉伸應變鈀納米片。

55.Superior Fast-Charging Lithium-Ion Batteries Enabled by the High-Speed Solid-State Lithium Transport of an Intermetallic Cu6Sn5 Network.

通過金屬間化合物 Cu6Sn5 網(wǎng)絡的高速固態(tài)鋰傳輸實現(xiàn)卓越的快速充電鋰離子電池。

56.Composition Engineering of Amorphous Nickel Boride Nanoarchitectures Enabling Highly Efficient Electrosynthesis of Hydrogen Peroxide.

非晶硼化鎳納米結(jié)構(gòu)的組成工程可實現(xiàn)高效電合成過氧化氫。

57.Enhanced Photoconductivity at Dislocations in SrTiO3.

增強 SrTiO3 位錯處的光電導性。

58.Nonvolatile Control of Metal–Insulator Transition in VO2 by Ferroelectric Gating.

通過鐵電門控對 VO2 中金屬-絕緣體轉(zhuǎn)變的非易失性控制。

59.Zwitterion-Functionalized SnO2 Substrate Induced Sequential Deposition of Black-Phase FAPbI3 with Rearranged PbI2 Residue.

兩性離子功能化 SnO2 基質(zhì)誘導黑相 FAPbI3 與重排 PbI2 殘留物的連續(xù)沉積。

60.Semi-Immobilized Ionic Liquid Regulator with Fast Kinetics toward Highly Stable Zinc Anode under ?35 to 60 °C.

半固定化離子液體調(diào)節(jié)劑，在 -35 至 60 °C 下具有快速動力學，可實現(xiàn)高度穩(wěn)定的鋅陽極。

61.Thermal Shock Fabrication of Ion-Stabilized Perovskite and Solar Cells.

離子穩(wěn)定鈣鈦礦和太陽能電池的熱沖擊制造。

62.Using Machine Learning to Predict and Understand Complex Self-Assembly Behaviors of a Multicomponent Nanocomposite.

使用機器學習來預測和理解多組分納米復合材料的復雜自組裝行為。

63.High-Stretchability, Ultralow-Hysteresis ConductingPolymer Hydrogel Strain Sensors for Soft Machines.

用于軟機器的高拉伸性、超低滯后導電聚合物水凝膠應變傳感器。

64.Fluorinated Perylene-Diimides: Cathode Interlayers Facilitating Carrier Collection for High-Performance Organic Solar Cells.

氟化苝二酰亞胺：促進高性能有機太陽能電池載流子收集的陰極中間層。

65.Drug in Drug: A Host–Guest Formulation of Azocalixarene with Hydroxychloroquine for Synergistic Anti-Inflammation.

藥物中的藥物：Azocalixarene 與羥氯喹的主客體制劑，用于協(xié)同抗炎。

66.Green Electrosynthesis of 5,5′-Azotetrazolate Energetic Materials Plus Energy-Efficient Hydrogen Production Using Ruthenium Single-Atom Catalysts.

5,5′-偶氮四唑含能材料的綠色電合成以及使用釕單原子催化劑的節(jié)能制氫。

67.2D Metal–Organic Framework Cu3(HHTT)2 Films for Broadband Photodetectors from Ultraviolet to Mid-Infrared.

紫外到中紅外寬帶光電探測器的二維金屬有機框架 Cu3(HHTT)2 薄膜。

68.Room-Temperature Sodium–Sulfur Batteries: Rules for Catalyst Selection and Electrode Design.

室溫鈉硫電池：催化劑選擇和電極設計規(guī)則。

69.Ultrahigh Carrier Mobilities in Ferroelectric Domain Wall Corbino Cones at Room Temperature.

室溫下鐵電疇壁 Corbino 錐體內(nèi)的超高載流子遷移率。

70.Stretchable and Biodegradable Batteries with High Energy and Power Density.

具有高能量和功率密度的可拉伸和可生物降解的電池。

71.Pushing the Natural Frontier: Progress on the Integration of Biomaterial Cues toward Combinatorial Biofabrication and Tissue Engineering.

推動自然前沿：生物材料線索整合到組合生物制造和組織工程方面的進展。

72.Changing Fate: Reprogramming Cells via Engineered Nanoscale Delivery Materials.

改變命運：通過工程納米級輸送材料重新編程細胞。

73.Self-Powered Active Sensing Based on Triboelectric Generators.

基于摩擦發(fā)電機的自供電主動傳感。

74.Studying Plasmon Dispersion of MXene for Enhanced Electromagnetic Absorption.

研究 MXene 的等離子色散以增強電磁吸收。

75.Versatile Sequential Casting Processing for Highly Efficient and Stable Binary Organic Photovoltaics.

用于高效、穩(wěn)定二元有機光伏的多功能順序鑄造工藝。

76.Bioinspired Stretchable Transducer for Wearable Continuous Monitoring of Respiratory Patterns in Humans and Animals.

用于連續(xù)監(jiān)測人類和動物呼吸模式的仿生可拉伸傳感器。

77.A Single-Dot Perovskite Spectrometer.

單點鈣鈦礦光譜儀。

78.Visualizing Ultrafast Defect-Controlled Interlayer Electron–Phonon Coupling in Van der Waals Heterostructures.

可視化范德華異質(zhì)結(jié)構(gòu)中超快缺陷控制的層間電子-聲子耦合。

79.Dendrite-Free and Long-Cycling Lithium Metal Battery Enabled by Ultrathin, 2D Shield-Defensive, and Single Lithium-Ion Conducting Polymeric Membrane.

采用超薄、2D 屏蔽防護和單鋰離子導電聚合物膜實現(xiàn)的無枝晶和長循環(huán)鋰金屬電池。