聲明：本專欄主要對生命科學(xué)領(lǐng)域的一些期刊文章標(biāo)題進(jìn)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。

1.3D Graphic Statics

In article number 2109725, Abdolhamid Akbarzadeh, Masoud Akbarzadeh, and co-workers report 3D/polyhedral graphic statics as a topological design methodology for realizing strut/shellular-based funicular materials with tunable mechanical properties, ranging from bending- to stretching-dominated and metafluidic behavior. This approach reveals the geometric relations in the truss system architecture, topological duality, and equilibrium of forces in architected cellular solids using dual reciprocal diagrams. The approach is scale-independent and can be applied to design metamaterials at the micro-scale and infrastructural systems at the macro-scale.

3D 圖形靜力學(xué)

在文章編號 2109725 中，Abdolhamid Akbarzadeh、Masoud Akbarzadeh 及其同事報告了 3D/多面體圖形靜力學(xué)作為一種拓?fù)湓O(shè)計方法，用于實現(xiàn)具有可調(diào)機(jī)械性能（從彎曲到拉伸）的基于支柱/殼的纜索材料。主導(dǎo)和元流體行為。這種方法使用對偶倒數(shù)圖揭示了桁架系統(tǒng)架構(gòu)中的幾何關(guān)系、拓?fù)鋵ε夹砸约敖ㄖ涓C固體中的力平衡。該方法與尺度無關(guān)，可用于設(shè)計微觀尺度的超材料和宏觀尺度的基礎(chǔ)設(shè)施系統(tǒng)。

2.Meniscus-Assisted Solution Printing

Inspired by the familiar “coffee ring” effect, in article number 2110824, Zhiqun Lin, Juan Peng, and co-workers demonstrate a robust meniscus-assisted solution printing strategy for yielding highly ordered, periodic stripe arrays of conjugated poly(3-butylthiophene)-block-poly(3-dodecylthiophene), which correlate well with their charge mobilities when used in organic field-effect transistors.

彎月面輔助溶液印刷

受熟悉的“咖啡環(huán)”效應(yīng)的啟發(fā)，Zhiqun Lin、Juan Peng 及其同事在文章編號 2110824 中展示了一種強(qiáng)大的彎月面輔助溶液印刷策略，用于產(chǎn)生高度有序、周期性的共軛多晶硅條紋陣列(3-丁基噻吩)-嵌段聚(3-十二烷基噻吩)，用于有機(jī)場效應(yīng)晶體管時與其電荷遷移率密切相關(guān)。

3.2D Materials

In article number 2110119, Bin Wang, Shaojuan Li, Dabing Li, and co-workers discuss the state of the art of using 2D materials in optoelectronic integration. They also provide general advice for future development in this field.

2D 材料 在文章編號 2110119 中，Bin Wang、Shaojuan Li、Dabing Li 及其同事討論了在光電集成中使用 2D 材料的最新技術(shù)。他們還為該領(lǐng)域的未來發(fā)展提供一般性建議。

4.Flexible Optoelectronic Memristors

In article number 2110900, Cong Ye, Jiahong Wang, and co-workers present a topochemical method to transform crystalline phosphorus nanoribbons into copper phosphide nanoribbons (Cu3P NRs) with well-maintained morphology. The flexible optoelectronic memristor constructed with Cu3P NRs exhibit excellent performance, and the memristor-based synapse arrays mimic the memory backtracking and pattern recognition.

柔性光電憶阻器

在文章編號 2110900 中，Cong Ye、Jiahong Wang 及其同事提出了一種拓?fù)浠瘜W(xué)方法，可將結(jié)晶磷納米帶轉(zhuǎn)化為形態(tài)保持良好的磷化銅納米帶 (Cu3P NR)。用 Cu3P NR 構(gòu)建的柔性光電憶阻器表現(xiàn)出優(yōu)異的性能，基于憶阻器的突觸陣列模擬了記憶回溯和模式識別。

5.Arbitrary Substrates

In article number 2113211, Xuelin Yang, Bing Huang, Bo Shen, and co-workers propose a strategy of polarization-driven-orientation selective growth and demonstrate that single-crystalline GaN can in principle be achieved on polycrystalline diamond or other substrates by utilizing a composed buffer layer consisting of graphene and polycrystalline physical-vapor-deposited AlN. This strategy can be extended to the growth of any emergent single-crystalline semiconductor films on any arbitrary freestanding substrates by choosing appropriate 2D materials with matched crystal structures.

任意襯底

在文章編號 2113211 中，Xuelin Yang、Bing Huang、Bo Shen 及其同事提出了一種偏振驅(qū)動取向選擇性生長策略，并證明單晶 GaN 原則上可以通過以下方式在多晶金剛石或其他襯底上實現(xiàn)利用由石墨烯和多晶物理氣相沉積AlN組成的復(fù)合緩沖層。通過選擇具有匹配晶體結(jié)構(gòu)的適當(dāng)?shù)亩S材料，該策略可以擴(kuò)展到在任何任意獨(dú)立基板上生長任何新興的單晶半導(dǎo)體薄膜。

6.Perspectives of 2D Materials for Optoelectronic Integration.

光電集成二維材料的前景。

7.Ferroelectric Photovoltaic Materials and Devices.

鐵電光伏材料與器件。

8.Nanoscience versus Viruses: The SARS-CoV-2 Case.

納米科學(xué)與病毒：SARS-CoV-2 案例。

9.Recent Advances in Nanozymes: From Matters to Bioapplications.

納米酶的最新進(jìn)展：從物質(zhì)到生物應(yīng)用。

10.Atomically Thin 2D Interfaces as Sensors for Molecular Permeability through Cellular Layers and Thin Tissues.

原子薄二維界面作為細(xì)胞層和薄組織分子滲透性傳感器。

11.Strut-Based Cellular to Shellular Funicular Materials.

基于支柱的蜂窩狀至殼狀索道材料。

12.Rapid Meniscus-Assisted Solution-Printing of Conjugated Block Copolymers for Field-Effect Transistors.

用于場效應(yīng)晶體管的共軛嵌段共聚物的快速彎液面輔助溶液印刷。

13.Topochemical Synthesis of Copper Phosphide Nanoribbons for Flexible Optoelectronic Memristors.

用于柔性光電憶阻器的磷化銅納米帶的拓?fù)浠瘜W(xué)合成。

14.Polarization-Driven-Orientation Selective Growth of Single-Crystalline III-Nitride Semiconductors on Arbitrary Substrates.

任意襯底上單晶 III 族氮化物半導(dǎo)體的偏振驅(qū)動取向選擇性生長。

15.Force-Reversible and Energetic Indole-Mg-Indole Cation-π Interaction for Designing Toughened and Multifunctional High-Performance Thermosets.

用于設(shè)計增韌多功能高性能熱固性材料的力可逆和高能吲哚-鎂-吲哚陽離子-π相互作用。

16.3D Printed Ti3C2Tx MXene/Cellulose Nanofiber Architectures for Solid-State Supercapacitors: Ink Rheology, 3D Printability, and Electrochemical Performance.

用于固態(tài)超級電容器的 3D 打印 Ti3C2Tx MXene/纖維素納米纖維架構(gòu)：墨水流變學(xué)、3D 打印適性和電化學(xué)性能。

17.An Intermediate Unit-Mediated, Continuous Structural Inheritance Strategy for the Dilemma between Injectability and Robustness of Hydrogels.

針對水凝膠可注射性和魯棒性之間困境的中間單元介導(dǎo)的連續(xù)結(jié)構(gòu)繼承策略。

18.Wafer-Scale InN/In2S3 Core–Shell Nanorod Array for Ultrafast Self-Powered Photodetection.

用于超快自供電光電探測的晶圓級 InN/In2S3 核殼納米棒陣列。

19.Local Spatial Polarization Induced Efficient Charge Separation of Squaraine-Linked COF for Enhanced Photocatalytic Performance.

局部空間偏振誘導(dǎo)方酸菁連接的 COF 的有效電荷分離，以增強(qiáng)光催化性能。

20.Interfacial and Ionic Modulation of Poly (Ethylene Oxide) Electrolyte Via Localized Iodization to Enable Dendrite-Free Lithium Metal Batteries.

通過局部碘化對聚環(huán)氧乙烷電解質(zhì)進(jìn)行界面和離子調(diào)節(jié)，以實現(xiàn)無枝晶的鋰金屬電池。

21.Highly Efficient TADF-Type Organic Afterglow of Long Emission Wavelengths.

長發(fā)射波長的高效 TADF 型有機(jī)余輝。

22.Fundamental Investigation of Biomass Interaction for Green Composites: Experiments and Molecular Dynamics Simulations.

綠色復(fù)合材料生物質(zhì)相互作用的基礎(chǔ)研究：實驗和分子動力學(xué)模擬。

23.Porous Alginate Scaffolds Designed by Calcium Carbonate Leaching Technique.

采用碳酸鈣浸出技術(shù)設(shè)計的多孔藻酸鹽支架。

24.Water–Solid Interface Engineering Stabilizes K-Birnessite Cathode.

水固界面工程穩(wěn)定 K-水鈉錳礦陰極。

25.Accelerated Discovery and Design of Ultralow Lattice Thermal Conductivity Materials Using Chemical Bonding Principles.

利用化學(xué)鍵合原理加速超低晶格導(dǎo)熱材料的發(fā)現(xiàn)和設(shè)計。

26.In Situ Stabilized CsPbI3 for Air-Fabricated Inverted Inorganic Perovskite Photovoltaics with Wide Humidity Operating Window.

原位穩(wěn)定 CsPbI3，用于空氣制造的具有寬濕度操作窗口的倒置無機(jī)鈣鈦礦光伏電池。

27.Suppressing the Jahn–Teller Effect in Mn-Based Layered Oxide Cathode toward Long-Life Potassium-Ion Batteries.

抑制錳基層狀氧化物陰極的 Jahn-Teller 效應(yīng)以實現(xiàn)長壽命鉀離子電池。

28.Regulating Zinc Deposition Behaviors by the Conditioner of PAN Separator for Zinc-Ion Batteries.

通過鋅離子電池 PAN 隔膜調(diào)節(jié)劑調(diào)節(jié)鋅沉積行為。

29.Synthesis of Tostadas-Shaped Metal-Organic Frameworks for Remitting Capacity Fading of Li-Ion Batteries.

用于緩解鋰離子電池容量衰減的 Tostadas 形金屬有機(jī)框架的合成。

30.Single-Solution Doping Enabling Dominant Integer Charge Transfer for Synergistically Improved Carrier Concentration and Mobility in Donor–Acceptor Polymers.

單溶液摻雜可實現(xiàn)主要的整數(shù)電荷轉(zhuǎn)移，從而協(xié)同提高供體-受體聚合物中的載流子濃度和遷移率。

31.Boosting Photocatalytic Hydrogen Production via Interfacial Engineering on 2D Ultrathin Z-Scheme ZnIn2S4/g-C3N4 Heterojunction.

通過二維超薄 Z 型 ZnIn2S4/g-C3N4 異質(zhì)結(jié)的界面工程促進(jìn)光催化產(chǎn)氫。

32.Hexagonal Phase Ni3Fe Nanosheets toward High-Performance Water Splitting by a Room-Temperature Methane Plasma Method.

六方相 Ni3Fe 納米片通過室溫甲烷等離子體方法實現(xiàn)高性能水分解。

33.Electrically, Thermally, and Mechanically Anisotropic Gels with a Wide Operational Temperature Range.

具有寬工作溫度范圍的電、熱和機(jī)械各向異性凝膠。

34.Ligand Field-Induced Exotic Dopant for Infrared Transparent Electrode: W in Rutile SnO2.

用于紅外透明電極的配體場誘導(dǎo)外來摻雜劑：金紅石 SnO2 中的 W。

35.Investigation of 2D Boridene from First Principles and Experiments.

從第一原理和實驗研究二維硼化物。

36.Anomalous Optoelectric Properties of an Ultrathin Ruthenium Film with a Surface Oxide Layer for Flexible Transparent Conducting Electrodes.

用于柔性透明導(dǎo)電電極的具有表面氧化層的超薄釕薄膜的反常光電特性。

37.Methylammonium Bromide Assisted Crystallization for Enhanced Lead-Free Double Perovskite Photovoltaic Performance.

甲基溴化銨輔助結(jié)晶可增強(qiáng)無鉛雙鈣鈦礦光伏性能。

38.A Standalone, Battery-Free Light Dosimeter for Ultraviolet to Infrared Light.

適用于紫外線到紅外線的獨(dú)立、無電池光劑量計。

39.In Situ Electronic Redistribution Tuning of NiCo2S4 Nanosheets for Enhanced Electrocatalysis.

用于增強(qiáng)電催化的 NiCo2S4 納米片的原位電子再分布調(diào)節(jié)。

40.Engineering Pocket-Like Graphene–Shell Encapsulated FeS2: Inhibiting Polysulfides Shuttle Effect in Potassium-Ion Batteries.

工程袋狀石墨烯殼封裝 FeS2：抑制鉀離子電池中的多硫化物穿梭效應(yīng)。

41.Hydrated Deep Eutectic Electrolytes for High-Performance Zn-Ion Batteries Capable of Low-Temperature Operation.

用于能夠低溫運(yùn)行的高性能鋅離子電池的水合深共晶電解質(zhì)。

42.Lead Leakage Preventable Fullerene-Porphyrin Dyad for Efficient and Stable Perovskite Solar Cells.

用于高效穩(wěn)定鈣鈦礦太陽能電池的可預(yù)防鉛泄漏的富勒烯-卟啉二元體。

43.Superhydrophobic and Multifunctional Aerogel Enabled by Bioinspired Salvinia Leaf-Like Structure.

由仿生槐葉狀結(jié)構(gòu)實現(xiàn)的超疏水多功能氣凝膠。

44.Hydrogenated Oxide Material for Self-Targeting and Automatic-Degrading Photothermal Tumor Therapy in the NIR-II Bio-Window.

用于 NIR-II 生物窗口中自靶向和自動降解光熱腫瘤治療的氫化氧化物材料。

45.Organic Light-Emitting Physically Unclonable Functions.

有機(jī)發(fā)光物理不可克隆功能。

46.On-Demand Editing of Surface Properties of Microstructures Made by 3D Direct Laser Writing via Photo-Mediated RAFT Polymerization.

通過光介導(dǎo)的 RAFT 聚合對通過 3D 直接激光寫入制成的微結(jié)構(gòu)的表面特性進(jìn)行按需編輯。

47.Optically Anisotropic Topical Hemostatic Coacervate for Naked-Eye Identification of Blood Coagulation.

用于肉眼識別血液凝固的光學(xué)各向異性局部止血凝聚層。

48.Monolithic Task-Specific Ionogel Electrolyte Membrane Enables High-Performance Solid-State Lithium-Metal Batteries in Wide Temperature Range.

單片特定任務(wù)離子凝膠電解質(zhì)膜可在寬溫度范圍內(nèi)實現(xiàn)高性能固態(tài)鋰金屬電池。

49.Vertically Aligned Polyamidoxime/Graphene Oxide Hybrid Sheets’ Membrane for Ultrafast and Selective Extraction of Uranium from Seawater.

垂直排列的聚酰胺肟/氧化石墨烯混合片膜，用于從海水中超快速選擇性提取鈾。

50.Bacteria-Targeting Photodynamic Nanoassemblies for Efficient Treatment of Multidrug-Resistant Biofilm Infected Keratitis.

細(xì)菌靶向光動力納米組件可有效治療多重耐藥生物膜感染的角膜炎。

51.Ionic-Liquid-Assisted Synthesis of N, F, and B Co-Doped CoFe2O4?x on Multiwalled Carbon Nanotubes with Enriched Oxygen Vacancies for Li–S Batteries.

離子液體輔助合成富氧空位多壁碳納米管上N、F 和 B 共摻雜 CoFe2O4 - x 用于 Li - S 電池。

52.Rational Design of Bioinspired Nucleobase-Containing Polymers as Tough Bioplastics and Ultra-Strong Adhesives.

作為堅韌生物塑料和超強(qiáng)粘合劑的仿生含核堿基聚合物的合理設(shè)計。

53.Atomic Structures

In article number 2108802, Jianfeng Yan and co-workers investigate the formation of the subsurface dislocation layer and its effect on mechanical properties during ultrafast laser fabrication at the atomic level. Three layers with different atomic structures, the recast layer, dislocation layer, and unaffected layer, are found after femtosecond laser irradiation. The subsurface dislocation layer is formed by laser-induced stress waves, and the effect on the mechanical properties of the metal is studied.

原子結(jié)構(gòu)

在文章編號 2108802 中，Jianfeng Yan 及其同事研究了原子級超快激光制造過程中次表面位錯層的形成及其對機(jī)械性能的影響。飛秒激光照射后發(fā)現(xiàn)了具有不同原子結(jié)構(gòu)的三層：重鑄層、位錯層和未受影響層。通過激光誘導(dǎo)應(yīng)力波形成次表面位錯層，并研究其對金屬機(jī)械性能的影響。

54.Stretchable Rubbery Electronics

Soft stretchable electronics with similar material composition to biology with intrinsic softness and stretchability are sought after for seamless integration between electronics and biology. In article number 2111232, Cunjiang Yu and co-workers report all-polymer rubbery electronics and sensors including all-polymer rubbery transistors, sensors, and sensory skin, which are fully made out of stretchable polymeric materials.

可拉伸橡膠電子產(chǎn)品

材料成分與生物材料相似、具有內(nèi)在柔軟性和可拉伸性的軟可拉伸電子產(chǎn)品受到人們的追捧，以實現(xiàn)電子產(chǎn)品與生物產(chǎn)品之間的無縫集成。在第 2111232 號文章中，Cunjian Yu 及其同事報告了全聚合物橡膠電子器件和傳感器，包括全聚合物橡膠晶體管、傳感器和感覺皮膚，它們完全由可拉伸聚合材料制成。

55.NO2 Sensing

In article number 2108959, Fangmeng Liu, Geyu Lu, and co-workers reveal that Ti atom defects enhance the NO2 sensing properties of oxidized Ti3C2Tx due to the stronger adsorption ability towards NO2, and design Ti3C2Tx/TiO2/rGO crumpled sphere heterostructures to further improve the sensitivity and selectivity of NO2. This work provides a new strategy for enhancing the sensing performance of MXene-based room temperature NO2 sensors.

NO2 傳感

在文章編號 2108959 中，F(xiàn)angmeng Liu、Geyu Lu 及其同事揭示了 Ti 原子缺陷由于對 NO2 具有更強(qiáng)的吸附能力而增強(qiáng)了氧化 Ti3C2TX 的 NO2 傳感性能，并設(shè)計了 Ti3C2TX/TiO2/rGO 皺球異質(zhì)結(jié)構(gòu)進(jìn)一步提高NO2的靈敏度和選擇性。這項工作為增強(qiáng)基于 MXene 的室溫 NO2 傳感器的傳感性能提供了一種新策略。

56.Peptide Navigators

In article number 2110368, Chang-Soo Kim, Hak-Joon Sung, and co-workers introduce a peptide navigator for vascular nanotheranostics. The display of disturbed flow-sensing peptides on nanoparticles enables accurate prediction of pre-stenotic vessels with subsequent prevention of vascular remodeling through multi-organ targeting. The results from in vitro and in vivo models validate an unprecedented nanotheranostic function for future medicine.

肽導(dǎo)航器

在文章編號 2110368 中，Chang-Soo Kim、Hak-Joon Sung 及其同事介紹了一種用于血管納米治療診斷的肽導(dǎo)航器。在納米顆粒上顯示受干擾的流量傳感肽能夠準(zhǔn)確預(yù)測狹窄前血管，隨后通過多器官靶向預(yù)防血管重塑。體外和體內(nèi)模型的結(jié)果驗證了未來醫(yī)學(xué)前所未有的納米治療功能。

57.Challenges and Opportunities in 3D Printing of Biodegradable Medical Devices by Emerging Photopolymerization Techniques.

通過新興光聚合技術(shù) 3D 打印可生物降解醫(yī)療器械的挑戰(zhàn)和機(jī)遇。

58.Nanostructured Materials and Architectures for Advanced Optoelectronic Synaptic Devices.

用于先進(jìn)光電突觸器件的納米結(jié)構(gòu)材料和架構(gòu)。

59.Engineering Complex Anisotropic Scaffolds beyond Simply Uniaxial Alignment for Tissue Engineering.

為組織工程設(shè)計復(fù)雜的各向異性支架，超越簡單的單軸對準(zhǔn)。

60.Infrared Photodetectors Based on 2D Materials and Nanophotonics.

基于二維材料和納米光子學(xué)的紅外光電探測器。

61.Ions Transport in Electrochemical Energy Storage Devices at Low Temperatures.

低溫電化學(xué)儲能裝置中的離子傳輸。

62.Confinement Effects in Individual Carbon Encapsulated Nonprecious Metal-Based Electrocatalysts.

單個碳封裝的非貴金屬基電催化劑中的限制效應(yīng)。

63.Atomic-Level Insight into the Formation of Subsurface Dislocation Layer and Its Effect on Mechanical Properties During Ultrafast Laser Micro/Nano Fabrication.

超快激光微/納米制造過程中次表面位錯層的形成及其對機(jī)械性能的影響的原子級洞察。

64.All-Polymer Based Stretchable Rubbery Electronics and Sensors.

基于全聚合物的可拉伸橡膠電子器件和傳感器。

65.The Introduction of Defects in Ti3C2Tx and Ti3C2Tx-Assisted Reduction of Graphene Oxide for Highly Selective Detection of ppb-Level NO2.

Ti3C2TX 中缺陷的引入和 Ti3C2TX 輔助還原氧化石墨烯用于 ppb 級 NO2 的高選擇性檢測。

66.Nanotheranostics of Pre-Stenotic Vessels By Target Touch-On Signaling of Peptide Navigator.

通過肽導(dǎo)航器的目標(biāo)接觸信號對狹窄前血管進(jìn)行納米治療。

67.Organelle-Specific Anchored Delivery System Stretching a Reversal of Tumor Hypoxia Microenvironment to a Combinational Chemo-Photothermal Therapy.

細(xì)胞器特異性錨定遞送系統(tǒng)將腫瘤缺氧微環(huán)境的逆轉(zhuǎn)延伸至化療光熱聯(lián)合療法。

68.Reshapable MXene/Graphene Oxide/Polyaniline Plastic Hybrids with Patternable Surfaces for Highly Efficient Solar-Driven Water Purification.

可重塑的 MXene/氧化石墨烯/聚苯胺塑料混合物，具有可圖案化表面，可實現(xiàn)高效太陽能驅(qū)動的水凈化。

69.Semiconducting MOF@ZnS Heterostructures for Photocatalytic Hydrogen Peroxide Production: Heterojunction Coverage Matters.

用于光催化過氧化氫生產(chǎn)的半導(dǎo)體 MOF@ZnS 異質(zhì)結(jié)構(gòu)：異質(zhì)結(jié)覆蓋很重要。

70.Introducing NO3– into Carbonate-Based Electrolytes via Covalent Organic Framework to Incubate Stable Interface for Li-Metal Batteries.

通過共價有機(jī)框架將 NO3– 引入碳酸鹽基電解質(zhì)中，為鋰金屬電池培育穩(wěn)定的界面。

71.Spontaneous Atomic Sites Formation in Wurtzite CoO Nanorods for Robust CO2 Photoreduction.

纖鋅礦 CoO 納米棒中自發(fā)原子位點的形成，用于穩(wěn)健的 CO2 光還原。

72.Large-Area Organic Solar Modules with Efficiency Over 14%.

大面積有機(jī)太陽能組件，效率超過 14%。

73.Self-Healing of Crystal Voids in Double Perovskite Nanocrystals Is Related to Surface Passivation.

雙鈣鈦礦納米晶體中晶體空洞的自修復(fù)與表面鈍化有關(guān)。

74.Quasi-Single Crystalline Cuprous Oxide Wafers via Stress-Assisted Thermal Oxidation for Optoelectronic Devices.

通過應(yīng)力輔助熱氧化制備準(zhǔn)單晶氧化亞銅晶圓，用于光電器件。

75.Zincophilic Cu Sites Induce Dendrite-Free Zn Anodes for Robust Alkaline/Neutral Aqueous Batteries.

親鋅銅位點可誘導(dǎo)形成無枝晶的鋅陽極，用于堅固的堿性/中性水電池。

76.Hofmeister Effect and Electrostatic Interaction Enhanced Ionic Conductive Organohydrogels for Electronic Applications.

用于電子應(yīng)用的霍夫邁斯特效應(yīng)和靜電相互作用增強(qiáng)離子導(dǎo)電有機(jī)水凝膠。

77.Triboelectric Nanogenerator Tattoos Enabled by Epidermal Electronic Technologies.

由表皮電子技術(shù)實現(xiàn)的摩擦納米發(fā)電機(jī)紋身。

78.Architecting Hybrid Donor–Acceptor Dendritic Nanosheets Based on Polyoxometalate and Porphyrin for High-Yield Solar Water Purification.

構(gòu)建基于多金屬氧酸鹽和卟啉的混合供體-受體樹枝狀納米片，用于高產(chǎn)太陽能水凈化。

79.Facile Synthesis of Zn2+-Based Hybrid Nanoparticles as a New Paradigm for the Treatment of Internal Bacterial Infections.

輕松合成基于 Zn2+ 的混合納米粒子作為治療內(nèi)部細(xì)菌感染的新范例。

80.Regulating Polysulfide Redox Kinetics on a Self-Healing Electrode for High-Performance Flexible Lithium-Sulfur Batteries.

調(diào)節(jié)高性能柔性鋰硫電池自愈電極上的多硫化物氧化還原動力學(xué)。

81.F and N Rich Solid Electrolyte for Stable All-Solid-State Battery.

用于穩(wěn)定全固態(tài)電池的富氟和富氮固體電解質(zhì)。

82.High-Resolution Erasable “Live” Patterns Based on Controllable Ink Diffusion on the 3D Blue-Phase Liquid Crystal Networks.

相液晶網(wǎng)絡(luò)上可控墨水?dāng)U散的高分辨率可擦除“實時”圖案。

83.Effect of the Threshold Kinetics on the Filament Relaxation Behavior of Ag-Based Diffusive Memristors.

閾值動力學(xué)對銀基擴(kuò)散憶阻器燈絲弛豫行為的影響。

84.Reversing Hydrogel Adhesion Property via Firmly Anchoring Thin Adhesive Coatings.

通過牢固錨定薄粘合劑涂層來逆轉(zhuǎn)水凝膠粘合特性。

85.Processing of Continuous Non-Crosslinked Collagen Fibers for Microtissue Formation at the Muscle-Tendon Interface.

連續(xù)非交聯(lián)膠原纖維的加工用于肌肉-肌腱界面微組織的形成。

86.Zn Dopants Synergistic Oxygen Vacancy Boosts Ultrathin CoO Layer for CO2 Photoreduction.

鋅摻雜劑協(xié)同氧空位增強(qiáng)超薄 CoO 層以實現(xiàn) CO2 光還原。

87.First-Principles Calculation Design for 2D Perovskite to Suppress Ion Migration for High-Performance X-ray Detection.

二維鈣鈦礦抑制離子遷移的第一原理計算設(shè)計，實現(xiàn)高性能 X 射線檢測。

88.Implementation of Synaptic Device Using Ultraviolet Ozone Treated Water-in-Bisalt/Polymer Electrolyte-Gated Transistor.

使用紫外線臭氧處理的雙鹽水/聚合物電解質(zhì)門控晶體管實現(xiàn)突觸裝置。

89.Realizing High and Stable Electrocatalytic Oxygen Evolution for Iron-Based Perovskites by Co-Doping-Induced Structural and Electronic Modulation.

通過共摻雜誘導(dǎo)結(jié)構(gòu)和電子調(diào)制實現(xiàn)鐵基鈣鈦礦的高穩(wěn)定電催化析氧。

90.Boosting O2 Reduction and H2O Dehydrogenation Kinetics: Surface N-Hydroxymethylation of g-C3N4 Photocatalysts for the Efficient Production of H2O2.

促進(jìn) O2 還原和 H2O 脫氫動力學(xué)：g-C3N4 光催化劑的表面 N-羥甲基化，用于高效生產(chǎn) H2O2。

91.Tough Hydrogel Bioadhesives for Sutureless Wound Sealing, Hemostasis and Biointerfaces.

用于無縫傷口密封、止血和生物界面的堅韌水凝膠生物粘合劑。

92.Initiating a Stretchable, Compressible, and Wearable Thermoelectric Generator by a Spiral Architecture with Ternary Nanocomposites for Efficient Heat Harvesting.

通過具有三元納米復(fù)合材料的螺旋結(jié)構(gòu)啟動可拉伸、可壓縮和可穿戴的熱電發(fā)電機(jī)，以實現(xiàn)高效的熱量收集。

93.Improved Energy Storage Properties Achieved in (K, Na)NbO3?Based Relaxor Ferroelectric Ceramics via a Combinatorial Optimization Strategy.

通過組合優(yōu)化策略提高 (K, Na)NbO3 基弛豫鐵電陶瓷的儲能性能。

94.Stable Formamidinium-Based Centimeter Long Two-Dimensional Lead Halide Perovskite Single-Crystal for Long-Life Optoelectronic Applications.

用于長壽命光電應(yīng)用的穩(wěn)定的甲脒基厘米長二維鹵化鉛鈣鈦礦單晶。

95.Synergy between Platinum and Gold Nanoparticles in Oxygen Activation for Enhanced Room-Temperature Formaldehyde Oxidation.

鉑和金納米粒子在氧活化中的協(xié)同作用以增強(qiáng)室溫甲醛氧化。

96.Ru(II) Catalyst Enables Dynamic Dual-Cross-Linked Elastomers with Near-Infrared Self-Healing toward Flexible Electronics.

Ru(II) 催化劑可實現(xiàn)具有近紅外自修復(fù)功能的動態(tài)雙交聯(lián)彈性體，從而實現(xiàn)柔性電子產(chǎn)品。

97.A Flexible, Mechanically Strong, and Anti-Corrosion Electromagnetic Wave Absorption Composite Film with Periodic Electroconductive Patterns.

一種具有周期性導(dǎo)電圖案的柔性、機(jī)械強(qiáng)度高、耐腐蝕的電磁波吸收復(fù)合薄膜。

98.Driving Droplets on Liquid Repellent Surfaces via Light-Driven Marangoni Propulsion.

通過光驅(qū)動馬蘭戈尼推進(jìn)器在防水表面上驅(qū)動液滴。

99.Modulation of Br?nsted and Lewis Acid Centers for NixCo3?xO4 Spinel Catalysts: Towards Efficient Catalytic Conversion of Lignin.

? xO4 尖晶石催化劑的布朗斯臺德和路易斯酸中心的調(diào)節(jié)：實現(xiàn)木質(zhì)素的高效催化轉(zhuǎn)化。

100.Edible, Ultrastrong, and Microplastic-Free Bacterial Cellulose-Based Straws by Biosynthesis.

通過生物合成生產(chǎn)可食用、超強(qiáng)、無微塑料的細(xì)菌纖維素吸管。

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