聲明：本專欄主要對生命科學領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，其他領域如果出現(xiàn)翻譯錯誤請諒解。

1.Osteoporotic Defect Repair

In article number 2201067, Chaoyong Liu, Bin Li, Fengxuan Han, and co-workers describe a multifunctional composite hydrogel approach, which enables effective repair of osteoporotic bone defects by rescuing the ROS microenvironment and guiding the immune response of the bone injury site. The findings provide a novel platform for repair of osteoporotic bone defects based on integrated bone microenviroment regulation.

骨質(zhì)疏松性骨缺損修復

在文章編號 2201067 中，Chaoyong Liu、Bin Li、Fengxuan Han 及其同事描述了一種多功能復合水凝膠方法，該方法可以通過挽救 ROS 微環(huán)境并引導骨損傷的免疫反應來有效修復骨質(zhì)疏松性骨缺損地點。該研究結果為基于骨微環(huán)境綜合調(diào)節(jié)的骨質(zhì)疏松性骨缺損修復提供了一個新的平臺。

2.Triboelectric Nanogenerators

In article number 2113005, Jae Y. Park and co-workers develop a Siloxene/Ecoflex based contactless triboelectric nanogenerator (TENG) to reduce the possible contact situations and improve the robustness and functionality of the TENG. The MoS2/LIG-based charge trapping interlayer exhibits excellent charge trapping property and aids in the realization of the TENG as a self-powered sensor for touchless interactions.

摩擦納米發(fā)電機

在文章編號 2113005 中，Jae Y. Park 及其同事開發(fā)了一種基于硅氧烷/Ecoflex 的非接觸式摩擦納米發(fā)電機 (TENG)，以減少可能的接觸情況并提高 TENG 的穩(wěn)健性和功能性?；贛oS2/LIG的電荷捕獲中間層表現(xiàn)出優(yōu)異的電荷捕獲特性，有助于將TENG實現(xiàn)為用于非接觸式交互的自供電傳感器。

3.Nanoconfinement Synthesis

In article number 2201352, Yuxi Xu and co-workers develop a general nanoconfinement strategy to fabricate ultrasmall bismuth oxyhalide nanocrystals with size-induced full reversible potassium-ion storage mechanism and ultrahigh electrochemical capacity.

納米限域合成

在文章編號 2201352 中，Yuxi Xu 和同事開發(fā)了一種通用的納米限域策略來制造具有尺寸誘導的完全可逆鉀離子存儲機制和超高電化學容量的超小型鹵氧化鉍納米晶體。

4.Flexible Pressure Sensors

In article number 2201147, Inkyu Park, Hanchul Cho, and co-workers develop a new strategy for generating 3D and irregular micro-dome structures with a design and manufacturing flexibility by internal popping of microspheres. This method allows controllable microscale 3D surface morphology without using micro-patterned molds for flexible pressure sensors with excellent sensing performances. A health monitoring system and human–computer interaction system are demonstrated using the fabricated flexible pressure sensor.

柔性壓力傳感器

在文章編號 2201147 中，Inkyu Park、Hanchul Cho 及其同事開發(fā)了一種新策略，通過微球內(nèi)部彈出來生成具有設計和制造靈活性的 3D 和不規(guī)則微圓頂結構。該方法無需使用微圖案模具即可實現(xiàn)可控的微尺度 3D 表面形態(tài)，從而實現(xiàn)具有優(yōu)異傳感性能的柔性壓力傳感器。使用所制造的柔性壓力傳感器演示了健康監(jiān)測系統(tǒng)和人機交互系統(tǒng)。

5.Vertical Phase Separation Structure for High-Performance Organic Thin-Film Transistors: Mechanism, Optimization Strategy, and Large-Area Fabrication toward Flexible and Stretchable Electronics.

高性能有機薄膜晶體管的垂直相分離結構：機制、優(yōu)化策略和柔性可拉伸電子器件的大面積制造。

6.Fluorite-Structured Ferroelectric and Antiferroelectric Materials: A Gateway of Miniaturized Electronic Devices.

螢石結構鐵電和反鐵電材料：微型電子設備的門戶。

7.Ionic Liquid-Based Redox Active Electrolytes for Supercapacitors.

用于超級電容器的離子液體基氧化還原活性電解質(zhì)。

8.Surface Wettability for Skin-Interfaced Sensors and Devices.

皮膚界面?zhèn)鞲衅骱驮O備的表面潤濕性。

9.A Multifunctional Composite Hydrogel That Rescues the ROS Microenvironment and Guides the Immune Response for Repair of Osteoporotic Bone Defects.

一種多功能復合水凝膠，可拯救 ROS 微環(huán)境并引導免疫反應修復骨質(zhì)疏松性骨缺損。

10.A Siloxene/Ecoflex Nanocomposite-Based Triboelectric Nanogenerator with Enhanced Charge Retention by MoS2/LIG for Self-Powered Touchless Sensor Applications.

基于硅氧烷/Ecoflex 納米復合材料的摩擦納米發(fā)電機，通過 MoS2/LIG 增強電荷保留，適用于自供電非接觸式傳感器應用。

11.Nanoconfinement Synthesis of Ultrasmall Bismuth Oxyhalide Nanocrystals with Size-Induced Fully Reversible Potassium-Ion Storage and Ultrahigh Volumetric Capacity.

具有尺寸誘導完全可逆鉀離子存儲和超高體積容量的超小型鹵氧化鉍納米晶體的納米限制合成。

12.Irregular Microdome Structure-Based Sensitive Pressure Sensor Using Internal Popping of Microspheres.

使用微球內(nèi)部彈出的基于不規(guī)則微圓頂結構的敏感壓力傳感器。

13.Stretchable Triboelectric Self-Powered Sweat Sensor Fabricated from Self-Healing Nanocellulose Hydrogels.

由自愈納米纖維素水凝膠制成的可拉伸摩擦電自供電汗液傳感器。

14.Novel GaPtMnP Alloy Based Anodic Electrocatalyst with Excellent Catalytic Features for Direct Ethanol Fuel Cells.

新型 GaPtMnP 合金基陽極電催化劑，具有優(yōu)異的催化特性，適用于直接乙醇燃料電池。

15.Heteroalkyl-Substitution in Molecular Organic Semiconductors: Chalcogen Effect on Crystallography, Conformational Lock, and Charge Transport.

分子有機半導體中的雜烷基取代：硫?qū)僭貙w學、構象鎖和電荷傳輸?shù)挠绊憽?/p>

16.Identifying the Role of Hydroxyl Binding Energy in a Non-Monotonous Behavior of Pd-Pd4S for Hydrogen Oxidation Reaction.

氫氧化反應非單調(diào)行為中的作用。

17.In Situ Nanofluid Dispersion Monitoring by Liquid–Solid Triboelectric Nanogenerator Based on Tuning the Structure of the Electric Double Layer.

基于調(diào)節(jié)雙電層結構的液固摩擦納米發(fā)電機原位納米流體分散監(jiān)測。

18.Visualizing Emergent Magnetic Flux of Antiskyrmions in Mn1.4PtSn Magnet.

可視化 Mn1.4PtSn 磁鐵中反斯格明子的涌現(xiàn)磁通量。

19.Highly Luminescent and Ultra-Stable Perovskite Films with Excellent Self-Healing Ability for Flexible Lighting and Wide Color Gamut Displays.

高發(fā)光和超穩(wěn)定的鈣鈦礦薄膜具有出色的自愈能力，適用于靈活的照明和寬色域顯示。

20.Hagfish-inspired Smart SLIPS Marine Antifouling Coating Based on Supramolecular: Lubrication Modes Responsively Switching and Self-healing Properties.

受盲鰻啟發(fā)的基于超分子的智能SLIPS海洋防污涂層：潤滑模式響應切換和自修復性能。

21.Practically Accessible All-Solid-State Batteries Enabled by Organosulfide Cathodes and Sulfide Electrolytes.

由有機硫化物陰極和硫化物電解質(zhì)實現(xiàn)的實用全固態(tài)電池。

22.An Injectable Antibiotic Hydrogel that Scavenges Proinflammatory Factors for the Treatment of Severe Abdominal Trauma.

一種可注射的抗生素水凝膠，可清除促炎因子，用于治療嚴重腹部創(chuàng)傷。

23.Mixed Chalcogenide-Halides for Stable, Lead-Free and Defect-Tolerant Photovoltaics: Computational Screening and Experimental Validation of CuBiSCl2 with Ideal Band Gap.

用于穩(wěn)定、無鉛和缺陷容忍光伏的混合硫族化物鹵化物：具有理想帶隙的 CuBiSCl2 的計算篩選和實驗驗證。

24.A Functionally Stable RuMn Electrocatalyst for Oxygen Evolution Reaction in Acid.

一種功能穩(wěn)定的 RuMn 電催化劑，用于酸中的析氧反應。

25.Stable α-FAPbI3 in Inverted Perovskite Solar Cells with Efficiency Exceeding 22% via a Self-Passivation Strategy.

通過自鈍化策略，倒置鈣鈦礦太陽能電池中的穩(wěn)定 α-FAPbI3 效率超過 22%。

26.A “Two-in-One” Strategy for Flexible Aqueous Batteries Operated at ?80 °C.

?80 ° C下運行的柔性水系電池的“二合一”策略。

27.Ligand-Anchoring-Induced Oriented Crystal Growth for High-Efficiency Lead-Tin Perovskite Solar Cells.

高效鉛錫鈣鈦礦太陽能電池的配體錨定誘導定向晶體生長。

28.Ultra-Thin Infrared Optical Gain Medium and Optically-Pumped Stimulated Emission in PbS Colloidal Quantum Dot LEDs.

PbS 膠體量子點 LED 中的超薄紅外光增益中等和光泵受激發(fā)射。

29.Novel Superaerophobic Anode with Fern-Shaped Pd Nanoarray for High-Performance Direct Formic Acid Fuel Cell.

用于高性能直接甲酸燃料電池的具有蕨形鈀納米陣列的新型超疏氣陽極。

30.Lasing from Laminated Quasi-2D/3D Perovskite Planar Heterostructures.

層壓準 2D/3D 鈣鈦礦平面異質(zhì)結構發(fā)射激光。

31.Composition-Dependent Magnetic Ordering in Freestanding 2D Non-van der Waals Cr2TexSe3?x Crystals.

獨立式 2D 非范德華 Cr2TexSe3 ? x 晶體中與成分相關的磁排序。

32.Nickel–Platinum Alloy Nanocrystallites with High-Index Facets as Highly Effective Core Catalyst for Lithium–Sulfur Batteries.

具有高折射率晶面的鎳鉑合金納米晶作為鋰硫電池的高效核心催化劑。

33.Exploring Functional Materials by Understanding Beam-Sample Interactions.

通過了解梁-樣品相互作用來探索功能材料。

34.Ultralow-Power and Multisensory Artificial Synapse Based on Electrolyte-Gated Vertical Organic Transistors.

基于電解質(zhì)門控垂直有機晶體管的超低功耗和多感官人工突觸。

35.Two Birds with One Stone: Contemporaneously Boosting OER Activity and Kinetics for Layered Double Hydroxide Inspired by Photosystem II.

一石二鳥：受光系統(tǒng) II 啟發(fā)，同時增強層狀雙氫氧化物的 OER 活性和動力學。

36.High-Performance Organic Electrochemical Transistors and Neuromorphic Devices Comprising Naphthalenediimide-Dialkoxybithiazole Copolymers Bearing Glycol Ether Pendant Groups.

包含帶有乙二醇醚側基的萘二亞胺-二烷氧基聯(lián)噻唑共聚物的高性能有機電化學晶體管和神經(jīng)形態(tài)器件。

37.Polydopamine-Mediated Interfacial Functionalization of Implants for Accelerating Infected Bone Repair through Light-Activatable Antibiosis and Carbon Monoxide Gas Regulated Macrophage Polarization.

聚多巴胺介導的植入物界面功能化，通過光激活抗生素和一氧化碳氣體調(diào)節(jié)巨噬細胞極化加速感染骨修復。

38.Highly Efficient and Reliable Semitransparent Perovskite Solar Cells via Top Electrode Engineering.

通過頂部電極工程實現(xiàn)高效、可靠的半透明鈣鈦礦太陽能電池。

39.Sharing of Strain Between Nanofiber Forests and Liquid Crystals Leads to Programmable Responses to Electric Fields.

納米纖維森林和液晶之間的應變共享導致對電場的可編程響應。

40.Silica-Coated Gold Nanorod Supraparticles: A Tunable Platform for Surface Enhanced Raman Spectroscopy.

二氧化硅涂層金納米棒超粒子：表面增強拉曼光譜的可調(diào)平臺。

41.A Sustainable Self-Induced Solution Seeding Approach for Multipurpose BiFeO3 Active Layers in Flexible Electronic Devices.

用于柔性電子設備中多用途 BiFeO3 有源層的可持續(xù)自誘導解決方案播種方法。

42.Degradable Silk-Based Subcutaneous Oxygen Sensors.

可降解絲基皮下氧傳感器。

43.MoC Quantum Dots@N-Doped-Carbon for Low-Cost and Efficient Hydrogen Evolution Reaction: From Electrocatalysis to Photocatalysis.

MoC量子點@氮摻雜碳用于低成本和高效的析氫反應：從電催化到光催化。

44.Directional and Adaptive Oil Self-Transport on a Multi-Bioinspired Grooved Conical Spine.

多仿生凹槽圓錐脊柱上的定向和自適應油自輸送。

45.Manipulating Polymer Configuration to Accelerate Cation Intercalation Kinetics for High-Performance Aqueous Zinc-Ion Batteries.

操縱聚合物構型以加速高性能水系鋅離子電池的陽離子嵌入動力學。

46.Electron Trap Dynamics in Polymer Light-Emitting Diodes.

聚合物發(fā)光二極管中的電子陷阱動力學。

47.Highly Efficient and Long-Range Charge-Transfer Complex Emission Between Two Blue Phosphorescent Emitters for White Organic Light-Emitting Diodes.

用于白色有機發(fā)光二極管的兩個藍色磷光發(fā)射體之間的高效、長距離電荷轉(zhuǎn)移復合物發(fā)射。

48.Aerodynamics-Based Triboelectric Nanogenerator for Enhancing Multi-Operating Robustness via Mode Automatic Switching.

基于空氣動力學的摩擦納米發(fā)電機，通過模式自動切換增強多操作魯棒性。

49.Disorder and Confinement Effects to Tune the Optical Properties of Amino Acid Doped Cu2O Crystals.

無序和限制效應調(diào)節(jié)氨基酸摻雜 Cu2O 晶體的光學性質(zhì)。

50.Natural Silk Spinning-Inspired Meso-Assembly-Processing Engineering Strategy for Fabricating Soft Tissue-Mimicking Biomaterials.

天然絲紡啟發(fā)的細觀組裝加工工程策略，用于制造模仿軟組織的生物材料。

51.Switchable Surface Coating for Bifunctional Passive Radiative Cooling and Solar Heating.

用于雙功能被動輻射冷卻和太陽能加熱的可切換表面涂層。

52.3D Printed Stretchable Liquid Gallium Battery.

3D 打印可拉伸液態(tài)鎵電池。

53.3D Fiber Electrodes

In article number 2113057, Hyeon Su Jeong, Nam Dong Kim, and co-workers present a 3D-architectured fiber-shaped energy storage device in which the structure is expressed in detail. This fiber consists of active material and vertically deposited graphene oxide on carbon nanotube fibers composed of uniaxially oriented carbon nanotube. This object can be integrated into clothing and power various wearable devices.

3D 纖維電極

在文章編號 2113057 中，Hyeon Su Jeong、Nam Dong Kim 及其同事展示了一種 3D 架構的纖維狀能量存儲裝置，其中詳細表達了結構。這種纖維由活性材料和垂直沉積在單軸取向碳納米管組成的碳納米管纖維上的氧化石墨烯組成。該物體可以集成到衣服中并為各種可穿戴設備提供動力。

54.Multimodal Gas Sensors

In article number 2202207, Hyung Woo Lee, Han Seul Kim, Jin Woo Choi, and co-workers study the mechanism of hydroxyl-induced reversible phase transition of Cs3Cu2I5 and CsCu2I3 and fabricate electrical-optical responsible multimodal gas sensors. The hydroxyl sensors show optical red-shifted emission and electrical resistance increment in 5s and 1 min, respectively. The sensor can be repeatably operated under room temperature with a low operation voltage of 1V with high stability over 1 year.

多模態(tài)氣體傳感器

在文章編號 2202207 中，Hyung Woo Lee、Han Seul Kim、Jin Woo Choi 及其同事研究了羥基誘導的 Cs3Cu2I5 和 CsCu2I3 可逆相變機制，并制造了電光負責的多模態(tài)氣體傳感器。羥基傳感器分別在 5 秒和 1 分鐘內(nèi)顯示光學紅移發(fā)射和電阻增量。該傳感器可在室溫下重復工作，工作電壓低至1V，穩(wěn)定性高，可達1年以上。

55.Solar-Blind Photoelectrochemical Photodetectors

In article number 2201604, Haiding Sun, Junjun Xue, Jin Wang, and co-workers present a high-efficient solar-blind photoelectrochemical photodetector based on wide-bandgap AlGaN nanowires, which are strategically decorated with Rh–Cr2O3 hybrid structures. By virtue of the synergetic effect that optimizes the interfacial carrier behaviors after surface renovation, the device exhibits a record high external quantum efficiency of 86.7% with a responsivity over 178 mA W?1.

日盲光電化學光電探測器

在文章編號 2201604 中，Haiding Sun、Junjun Xu、Jin Wang 及其同事提出了一種基于寬帶隙 AlGaN 納米線的高效日盲光電化學光電探測器，該納米線策略性地用 Rh-Cr2O3 雜化物裝飾結構。憑借表面翻新后優(yōu)化界面載流子行為的協(xié)同效應，該器件表現(xiàn)出創(chuàng)紀錄的86.7%的高外量子效率，響應度超過178 mA W ? 1。

56.Solvent-Free Upcycling Vitrimers

In article number 2111030, Qi Ge and co-workers develop a universal method for upcycling vitrimer wastes by adding conventional unprintable vitrimer powders into a developed a UV curable recycling solution. The resulting mixture is compatible with digital light processing-based 3D printing to fabricate complex 3D structures whose mechanical properties can be enhanced by heating trigger bond exchange reactions.

無溶劑升級改造 Vitrimer

在文章編號 2111030 中，Qi Ge 和同事開發(fā)了一種升級改造 Vitrimer 廢物的通用方法，將傳統(tǒng)的不可印刷 Vitrimer 粉末添加到開發(fā)的 UV 固化回收解決方案中。所得混合物與基于數(shù)字光處理的 3D 打印兼容，可制造復雜的 3D 結構，其機械性能可通過加熱觸發(fā)鍵交換反應來增強。

57.Magnetic Topological Insulators

Targeted modification of properties is crucial to engineer novel phenomena such as the quantum anomalous Hall effect. In article number 2202234, Gyula Eres, Matthew Brahlek, and co-workers show that the anomalous Hall effect in the magnetic topological insulator MnBi2Te4 is highly tunable, to the point of complete sign reversal, by modification of the top-most layer via oxidation, which is linked to a subtle rebalancing of the global magnetic state.

磁拓撲絕緣體

有針對性的修改對于設計量子反?；魻栃刃卢F(xiàn)象至關重要。在第 2202234 號文章中，Gyula Eres、Matthew Brahlek 及其同事表明，通過氧化修改最頂層，磁拓撲絕緣體 MnBi2Te4 中的反?；魻栃歉叨瓤烧{(diào)的，達到完全符號反轉(zhuǎn)的程度，這與全球磁力狀態(tài)的微妙重新平衡有關。

58.Exploring Axial Organic Multiblock Heterostructure Nanowires: Advances in Molecular Design, Synthesis, and Functional Applications.

探索軸向有機多嵌段異質(zhì)結構納米線：分子設計、合成和功能應用的進展。

59.Performance Improvement of Perovskite Solar Cells by Interactions between Nano-Sized Quantum Dots and Perovskite.

通過納米量子點和鈣鈦礦之間的相互作用提高鈣鈦礦太陽能電池的性能。

60.Exploring Next-Generation Functional Organic Phase Change Composites.

探索下一代功能有機相變復合材料。

61.3D Architecturing Strategy on the Utmost Carbon Nanotube Fiber for Ultra-High Performance Fiber-Shaped Supercapacitor.

用于超高性能纖維狀超級電容器的極限碳納米管纖維的 3D 架構策略。

62.Multimodal Gas Sensor Detecting Hydroxyl Groups with Phase Transition Based on Eco-Friendly Lead-Free Metal Halides.

基于環(huán)保無鉛金屬鹵化物的多模態(tài)氣體傳感器通過相變檢測羥基。

63.Achieving Record High External Quantum Efficiency >86.7% in Solar-Blind Photoelectrochemical Photodetection.

在日盲光電化學光電檢測中實現(xiàn)創(chuàng)紀錄的高外部量子效率 >86.7%。

64.Solvent-Free Upcycling Vitrimers through Digital Light Processing-Based 3D Printing and Bond Exchange Reaction.

通過基于數(shù)字光處理的 3D 打印和鍵交換反應對 Vitrimers 進行無溶劑升級改造。

65.Surface-Driven Evolution of the Anomalous Hall Effect in Magnetic Topological Insulator MnBi2Te4 Thin Films.

磁拓撲絕緣體 MnBi2Te4 薄膜中反?；魻栃谋砻骝?qū)動演化。

66.Elastocaloric Kirigami Temperature Modulator.

彈性熱剪紙溫度調(diào)節(jié)器。

67.Improved Low-Temperature Performance of Rocking-Chair Sodium-Ion Hybrid Capacitor by Mitigating the De-Solvation Energy and Interphase Resistance.

通過降低去溶劑化能和相間電阻來改善搖椅鈉離子混合電容器的低溫性能。

68.Dynamic Reversible Evolution of Solid Electrolyte Interface in Nonflammable Triethyl Phosphate Electrolyte Enabling Safe and Stable Potassium-Ion Batteries.

不可燃磷酸三乙酯電解質(zhì)中固體電解質(zhì)界面的動態(tài)可逆演化，實現(xiàn)安全穩(wěn)定的鉀離子電池。

69.Scalable Lithiophilic/Sodiophilic Porous Buffer Layer Fabrication Enables Uniform Nucleation and Growth for Lithium/Sodium Metal Batteries.

可擴展的親鋰/親鈉多孔緩沖層制造能夠?qū)崿F(xiàn)鋰/鈉金屬電池的均勻成核和生長。

70.The Role of SnF2 Additive on Interface Formation in All Lead-Free FASnI3 Perovskite Solar Cells.

SnF2 添加劑對所有無鉛 FASnI3 鈣鈦礦太陽能電池界面形成的作用。

71.Lead-Free Halide CsAg2I3 with 1D Electronic Structure and High Stability for Ultraviolet Photodetector.

具有一維電子結構和高穩(wěn)定性的無鉛鹵化物 CsAg2I3，適用于紫外光電探測器。

72.Engineering Densely Packed Adipose Tissue via Environmentally Controlled In-Bath 3D Bioprinting.

通過環(huán)境控制的浴內(nèi) 3D 生物打印工程制造致密脂肪組織。

73.Molecular Hinges Stabilize Formamidinium-Based Perovskite Solar Cells with Compressive Strain.

分子鉸鏈通過壓縮應變穩(wěn)定甲脒基鈣鈦礦太陽能電池。

74.Reducing Valence States of Co Active Sites in a Single-Atom Nanozyme for Boosted Tumor Therapy.

降低單原子納米酶中共活性位點的價態(tài)以增強腫瘤治療。

75.Molecular Stacking Composite Nanoparticles of Gossypolone and Thermodynamic Agent for Elimination of Large Tumor in Mice via Electrothermal-Thermodynamic-Chemo Trimodal Combination Therapy.

棉酚酮和熱力學試劑的分子堆積復合納米顆粒通過電熱-熱力學-化療三模式聯(lián)合療法消除小鼠大腫瘤。

76.A Generic Sacrificial Layer for Wide-Range Freestanding Oxides with Modulated Magnetic Anisotropy.

具有調(diào)制磁各向異性的寬范圍獨立氧化物的通用犧牲層。

77.Scalable Platform for Nanocrystal-Based Quantum Electronics.

基于納米晶體的量子電子學的可擴展平臺。

78.Underwater Directional and Continuous Manipulation of Gas Bubbles on Superaerophobic Magnetically Responsive Microcilia Array.

超疏氣磁響應微纖毛陣列上氣泡的水下定向和連續(xù)操縱。

79.Beyond Skin Pressure Sensing: 3D Printed Laminated Graphene Pressure Sensing Material Combines Extremely Low Detection Limits with Wide Detection Range.

超越皮膚壓力傳感：3D 打印層壓石墨烯壓力傳感材料將極低的檢測限與寬檢測范圍相結合。

80.Tough, Strong, and Conductive Graphene Fibers by Optimizing Surface Chemistry of Graphene Oxide Precursor.

通過優(yōu)化氧化石墨烯前體的表面化學，獲得堅韌、堅固且導電的石墨烯纖維。

81.High-Performance Freshwater Harvesting System by Coupling Solar Desalination and Fog Collection with Hierarchical Porous Microneedle Arrays.

通過將太陽能海水淡化和霧氣收集與分層多孔微針陣列相結合的高性能淡水收集系統(tǒng)。

82.Multi-Color 3D Printing via Single-Vat Grayscale Digital Light Processing.

通過單缸灰度數(shù)字光處理進行多色 3D 打印。

83.In Situ Cross-Linked Plastic Crystal Electrolytes for Wide-Temperature and High-Energy-Density Lithium Metal Batteries.

用于寬溫高能量密度鋰金屬電池的原位交聯(lián)塑料晶體電解質(zhì)。

84.Symmetry Engineering Induced In-Plane Polarization in MoS2 through Van der Waals Interlayer Coupling.

對稱工程通過范德華層間耦合在 MoS2 中誘導面內(nèi)極化。

85.High Configuration Entropy Activated Lattice Oxygen for O2 Formation on Perovskite Electrocatalyst.

高構型熵激活晶格氧在鈣鈦礦電催化劑上形成 O2。

86.Solution-Processed Wafer-Scale Ag2S Thin Films: Synthesis and Excellent Charge Transport Properties.

溶液處理的晶圓級 Ag2S 薄膜：合成和優(yōu)異的電荷傳輸性能。

87.Van der Waals Magnetic Heterojunctions with Giant Zero-Bias Tunneling Magnetoresistance and Photo-Assisted Magnetic Memory.

具有巨型零偏置隧道磁阻和光輔助磁記憶的范德華磁性異質(zhì)結。

88.Improved Stability and Efficiency of Inverted Perovskite Solar Cell by Employing Nickel Oxide Hole Transporting Material Containing Ammonium Salt Stabilizer.

采用含有銨鹽穩(wěn)定劑的氧化鎳空穴傳輸材料提高倒置鈣鈦礦太陽能電池的穩(wěn)定性和效率。

89.Robust Memristive Fiber for Woven Textile Memristor.

用于編織紡織憶阻器的堅固憶阻纖維。

90.Design Unique Air-Stable and Li–Metal Compatible Sulfide Electrolyte via Exploration of Anion Functional Units for All-Solid-State Lithium–Metal Batteries.

通過探索全固態(tài)鋰金屬電池的陰離子功能單元，設計獨特的空氣穩(wěn)定且與鋰金屬兼容的硫化物電解質(zhì)。

91.Balancing the Photo-Induced Carrier Transport Behavior at Two Semiconductor Interfaces for Dual-Polarity Photodetection.

平衡兩個半導體界面處的光致載流子傳輸行為，以實現(xiàn)雙極性光電檢測。

92.Turning on High-Sensitive Organic Electrochemical Transistor-Based Photoelectrochemical-Type Sensor over Modulation of Fe-MOF by PEDOT.

通過 PEDOT 調(diào)制 Fe-MOF 打開基于高靈敏度有機電化學晶體管的光電化學型傳感器。

93.Tunable Surface Chemistry in Heterogeneous Bilayer Single-Atom Catalysts for Electrocatalytic NOx Reduction to Ammonia.

用于電催化氮氧化物還原為氨的異質(zhì)雙層單原子催化劑中可調(diào)節(jié)的表面化學。

94.Weyl Semimetal States Generated Extraordinary Quasi-Linear Magnetoresistance and Nernst Thermoelectric Power Factor in Polycrystalline NbP.

Weyl 半金屬態(tài)在多晶 NbP 中產(chǎn)生了非凡的準線性磁阻和能斯特熱電功率因數(shù)。

95.DNA-Based Single Molecule Force Sensor For Characterization of α5β1 Integrin Tension Required for Invadopodia Formation and Maturation in Cancer Cells.

基于 DNA 的單分子力傳感器，用于表征癌細胞中侵襲偽足形成和成熟所需的 α5β1 整合素張力。

96.Enriched d-Band Holes Enabling Fast Oxygen Evolution Kinetics on Atomic-Layered Defect-Rich Lithium Cobalt Oxide Nanosheets.

豐富的 d 帶空穴可在富含原子層缺陷的鋰鈷氧化物納米片上實現(xiàn)快速析氧動力學。

97.Photodetectors Based on Lead Sulfide Quantum Dot and Organic Absorbers for Multispectral Sensing in the Visible to Short-Wave Infrared Range.

基于硫化鉛量子點和有機吸收體的光電探測器，用于可見光到短波紅外范圍內(nèi)的多光譜傳感。

98.Steering Unit Cell Dipole and Internal Electric Field by Highly Dispersed Er atoms Embedded into NiO for Efficient CO2 Photoreduction.

通過嵌入 NiO 中的高度分散的 Er 原子來控制晶胞偶極子和內(nèi)部電場，以實現(xiàn)高效的 CO2 光還原。

99.Transparent, Self-Adhesive, Conductive Organohydrogels with Fast Gelation from Lignin-Based Self-Catalytic System for Extreme Environment-Resistant Triboelectric Nanogenerators.

透明、自粘、導電的有機水凝膠，可通過基于木質(zhì)素的自催化系統(tǒng)快速凝膠化，用于耐極端環(huán)境的摩擦納米發(fā)電機。

100.Combined Experimental and DFT Study on 2D MoSe2 toward Low Infrared Emissivity.

二維 MoSe2 低紅外發(fā)射率的實驗和 DFT 聯(lián)合研究。

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