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.Magnesium Sensors

In article number 2201854, Seungyong Han, Sang Min Won, and co-workers report a functional encapsulating structure that quantitatively measures the diffusion of fluids into the encapsulating barrier. The hydrolysis of magnesium electrode underneath the encapsulating barrier shows the capability of wireless monitoring of the water and/or biofluid penetration rate and the presence of defects, such as pinholes or cracks, in the encapsulating material.

鎂傳感器

在文章編號 2201854 中，Seungyong Han、Sang Min Won 及其同事報告了一種功能性封裝結(jié)構(gòu)，可以定量測量流體擴散到封裝屏障中的情況。封裝屏障下方的鎂電極的水解顯示了無線監(jiān)測水和/或生物流體滲透率以及封裝材料中是否存在缺陷（例如針孔或裂紋）的能力。

2.Biohybrid Soft Robots

In article number 2202674, Su Ryon Shin and co-workers demonstrate untethered biohybrid soft robots comprised of human cardiac muscle actuators and wirelessly powered bioelectronics that allows for electrically controlled movement without the need for batteries and wires. The direct and seamless integration strategy herein introduced will enable the full hybridization of bioelectronics with living tissues.

生物混合軟機器人

在文章編號 2202674 中，Su Ryon Shin 及其同事展示了不受束縛的生物混合軟機器人，該機器人由人類心肌執(zhí)行器和無線供電生物電子器件組成，無需電池和電線即可進行電控運動。本文引入的直接無縫集成策略將使生物電子學(xué)與活體組織完全雜交。

3.Subnanometer Clusters

In article number 2204370, Yixing Li, Xuefeng Zhang, and co-workers fabricate sub-nanometer iron clusters within nitrogen-doped carbon nanocages. Benefitting from their unique structures, the energy transformation between the relatively complex permeability and permittivity can be realized, which thus boosts the dielectric polarization and improves the electromagnetic wave absorption performance.

亞納米簇

在文章編號 2204370 中，Yixing Li、Xuefeng Zhang 及其同事在氮摻雜碳納米籠內(nèi)制造了亞納米鐵簇。得益于其獨特的結(jié)構(gòu)，可以實現(xiàn)相對復(fù)雜的磁導(dǎo)率和介電常數(shù)之間的能量轉(zhuǎn)換，從而增強介電極化并提高電磁波吸收性能。

4.Graphene Nanomesh Membranes

In article number 2200199, Yanan Liu and Marc-Olivier Coppens leverage the mechanisms underpinning selective, high water permeation and anti-fouling of cell membranes, to create an artificial membrane, based on chitosan-functionalised graphene nanomesh, for tricky oil/water separations within a wide pH range and at very high water flux (±4000 L/m2 h).

石墨烯納米網(wǎng)膜

在文章編號 2200199 中，Yanan Liu 和 Marc-Olivier Coppens 利用支持細(xì)胞膜選擇性、高水滲透和防污的機制，創(chuàng)建了一種基于殼聚糖功能化石墨烯納米網(wǎng)的人工膜，用于棘手的油/在很寬的 pH 范圍和非常高的水通量 (±4000 L/m2 h) 下進行水分離。

5.Nitrogen-Rich Carbonaceous Materials for Advanced Oxygen Electrocatalysis: Synthesis, Characterization, and Activity of Nitrogen Sites.

用于先進氧電催化的富氮碳質(zhì)材料：氮位點的合成、表征和活性。

6.Are Porous Polymers Practical to Protect Li-Metal Anodes? - Current Strategies and Future Opportunities.

多孔聚合物可以實用地保護鋰金屬陽極嗎？ - 當(dāng)前的策略和未來的機會。

7.Advances in Carbon Materials for Sodium and Potassium Storage.

鈉和鉀儲存碳材料的進展。

8.Understanding Rapid Intercalation Materials One Parameter at a Time.

了解快速插層材料一次一個參數(shù)。

9.Functional Encapsulating Structure for Wireless and Immediate Monitoring of the Fluid Penetration.

用于無線和即時監(jiān)測流體滲透的功能封裝結(jié)構(gòu)。

10.Wirelessly Powered 3D Printed Hierarchical Biohybrid Robots with Multiscale Mechanical Properties.

具有多尺度機械特性的無線供電 3D 打印分層生物混合機器人。

11.Sub-Nanometer Fe Clusters Confined in Carbon Nanocages for Boosting Dielectric Polarization and Broadband Electromagnetic Wave Absorption.

限制在碳納米籠中的亞納米鐵簇可增強介電極化和寬帶電磁波吸收。

12.Cell Membrane-Inspired Graphene Nanomesh Membrane for Fast Separation of Oil-in-Water Emulsions.

受細(xì)胞膜啟發(fā)的石墨烯納米網(wǎng)膜，用于快速分離水包油乳液。

13.Enabling Renewable Energy Technologies in Harsh Climates with Ultra-Efficient Electro-Thermal Desnowing, Defrosting, and Deicing.

通過超高效電熱除雪、除霜和除冰，在惡劣氣候下實現(xiàn)可再生能源技術(shù)。

14.Spherulitic Crystal Growth Drives Mineral Deposition Patterns in Collagen-Based Materials.

球晶晶體生長驅(qū)動膠原基材料中的礦物沉積模式。

15.Organic Ion Template-Guided Solution Growth of Ultrathin Bismuth Oxyselenide with Tunable Electronic Properties for Optoelectronic Applications.

有機離子模板引導(dǎo)溶液生長超薄硒化鉍，具有可調(diào)諧電子特性，適用于光電應(yīng)用。

16.Sulfone-Incorporated Multi-Resonance TADF Emitter for High-Performance Narrowband Blue OLEDs with EQE of 32%.

用于高性能窄帶藍(lán)色 OLED 的摻有砜的多諧振 TADF 發(fā)射器，EQE 為 32%。

17.Fragile-to-Strong Transition in Phase-Change Material Ge3Sb6Te5.

相變材料 Ge3Sb6Te5 中的脆到強的轉(zhuǎn)變。

18.RuO2 Supercapacitor Enables Flexible, Safe, and Efficient Optoelectronic Neural Interface.

RuO2 超級電容器可實現(xiàn)靈活、安全、高效的光電神經(jīng)接口。

19.NiOx Nanocrystals with Tunable Size and Energy Levels for Efficient and UV Stable Perovskite Solar Cells.

具有可調(diào)尺寸和能量水平的 NiOx 納米晶體，用于高效且紫外線穩(wěn)定的鈣鈦礦太陽能電池。

20.Stabilizing the Anionic Redox in 4.6 V LiCoO2 Cathode through Adjusting Oxygen Magnetic Moment.

通過調(diào)節(jié)氧磁矩穩(wěn)定 4.6 V LiCoO2 陰極中的陰離子氧化還原。

21.O-Tailored Microstructure-Engineered Interface toward Advanced Room Temperature All-Solid-State Na Batteries.

針對先進室溫全固態(tài)鈉電池的 O 定制微結(jié)構(gòu)設(shè)計接口。

22.HAp Thermosensitive Nanohydrogel Cavities Act as Brood Pouches to Incubate and Control-Release NSCs for Rapid Spinal Cord Injury Therapy.

HAp 熱敏納米水凝膠腔可作為育兒袋來孵化和控制釋放 NSC，以實現(xiàn)脊髓損傷的快速治療。

23.Constructing Highly Conductive and Thermomechanical Stable Quasi-Solid Electrolytes by Self-Polymerization of Liquid Electrolytes within Porous Polyimide Nanofiber Films.

通過多孔聚酰亞胺納米纖維膜內(nèi)液體電解質(zhì)的自聚合構(gòu)建高導(dǎo)電性和熱機械穩(wěn)定的準(zhǔn)固體電解質(zhì)。

24.Non-Noble-Metal Catalyst and Zn/Graphene Film for Low-Cost and Ultra-Long-Durability Solid-State Zn-Air Batteries in Harsh Electrolytes.

非貴金屬催化劑和鋅/石墨烯薄膜，用于惡劣電解質(zhì)中的低成本和超長耐用性固態(tài)鋅空氣電池。

25.Understanding the Site-Selective Electrocatalytic Co-Reduction Mechanism for Green Urea Synthesis Using Copper Phthalocyanine Nanotubes.

了解使用銅酞菁納米管合成綠色尿素的位點選擇性電催化共還原機制。

26.High-Temperature Flexible Nanocomposites with Ultra-High Energy Storage Density by Nanostructured MgO Fillers.

由納米結(jié)構(gòu)氧化鎂填料制成的具有超高儲能密度的高溫柔性納米復(fù)合材料。

27.In Situ Anchoring Massive Isolated Pt Atoms at Cationic Vacancies of α-NixFe1-x(OH)2 to Regulate the Electronic Structure for Overall Water Splitting.

將大量孤立的 Pt 原子原位錨定在 α-NixFe1-x(OH)2 的陽離子空位上，以調(diào)節(jié)整體水分解的電子結(jié)構(gòu)。

28.Synergistic Effect between NiOx and P3HT Enabling Efficient and Stable Hole Transport Pathways for Regular Perovskite Photovoltaics.

NiOx 和 P3HT 之間的協(xié)同效應(yīng)為常規(guī)鈣鈦礦光伏電池提供高效穩(wěn)定的空穴傳輸途徑。

29.Anisotropically Oriented Carbon Films with Dual-Function of Efficient Heat Dissipation and Excellent Electromagnetic Interference Shielding Performances.

具有高效散熱和優(yōu)異電磁干擾屏蔽雙重功能的各向異性取向碳膜。

30.A Dual-Mode Infrared Asymmetric Photonic Structure for All-Season Passive Radiative Cooling and Heating.

用于全天候被動輻射冷卻和加熱的雙模紅外不對稱光子結(jié)構(gòu)。

31.An Enzyme-Like Activity Nanoprobe Based on Fe(III)–Rutin Hydrate Biomineral for MR Imaging and Therapy of Triple Negative Breast Cancer.

基于 Fe(III)-蘆丁水合物生物礦物的類酶活性納米探針，用于三陰性乳腺癌的 MR 成像和治療。

32.Programmable Controlling of Multiple Spatial Harmonics via a Nonlinearly Phased Grating Metasurface.

通過非線性相控光柵超表面對多個空間諧波進行可編程控制。

33.NiFe Nanoalloys Derived from Layered Double Hydroxides for Photothermal Synergistic Reforming of CH4 with CO2.

源自層狀雙氫氧化物的 NiFe 納米合金，用于 CH4 與 CO2 的光熱協(xié)同重整。

34.Defective MWCNT Enabled Dual Interface Coupling for Carbon-Based Perovskite Solar Cells with Efficiency Exceeding 22%.

有缺陷的 MWCNT 可實現(xiàn)碳基鈣鈦礦太陽能電池的雙界面耦合，效率超過 22%。

35.Extrinsic Localized Excitons in Patterned 2D Semiconductors.

圖案化二維半導(dǎo)體中的外在局域激子。

36.Anisotropic Thermally Conductive Composites Enabled by Acoustophoresis and Stereolithography.

通過聲泳和立體光刻技術(shù)實現(xiàn)的各向異性導(dǎo)熱復(fù)合材料。

37.Data-Driven High-Throughput Rational Design of Double-Atom Catalysts for Oxygen Evolution and Reduction.

用于析氧和還原的雙原子催化劑的數(shù)據(jù)驅(qū)動高通量合理設(shè)計。

38.Strong and Tough Conductive Organo-Hydrogels via Freeze-Casting Assisted Solution Substitution.

通過冷凍鑄造輔助溶液替代實現(xiàn)強而堅韌的導(dǎo)電有機水凝膠。

39.Facile and Fast Interfacial Engineering Using a Frustrated Interfacial Self-Assembly of Block Copolymers for Sub-10-nm Block Copolymer Nanopatterning.

使用嵌段共聚物受阻界面自組裝進行簡便快速的界面工程，用于亞 10 納米嵌段共聚物納米圖案化。

40.Atomic Heterointerface Engineering of Ni2P-NiSe2 Nanosheets Coupled ZnP-Based Arrays for High-Efficiency Solar-Assisted Water Splitting.

Ni2P-NiSe2 納米片耦合 ZnP 基陣列的原子異質(zhì)界面工程，用于高效太陽能輔助水分解。

41.Realizing Simultaneous X-Ray Imaging and Dosimetry Using Phosphor-Based Detectors with High Memory Stability and Convenient Readout Process.

高內(nèi)存穩(wěn)定性和便捷讀出過程的磷基探測器實現(xiàn)同步 X 射線成像和劑量測定。

42.In Situ Reconstruction of Partially Hydroxylated Porous Rh Metallene for Ethylene Glycol-Assisted Seawater Splitting.

用于乙二醇輔助海水裂解的部分羥基化多孔 Rh 亞金屬的原位重建。

43.Structure-Optimized Phosphorene for Super-Stable Potassium Storage.

用于超穩(wěn)定鉀存儲的結(jié)構(gòu)優(yōu)化磷烯。

44.Anti-Freezing Self-Adhesive Self-Healing Degradable Touch Panel with Ultra-Stretchable Performance Based on Transparent Triboelectric Nanogenerators.

基于透明摩擦納米發(fā)電機的具有超拉伸性能的防凍自粘自愈可降解觸摸屏。

45.Utilization of an Acellular Cartilage Matrix-Based Photocrosslinking Hydrogel for Tracheal Cartilage Regeneration and Circumferential Tracheal Repair.

利用基于脫細(xì)胞軟骨基質(zhì)的光交聯(lián)水凝膠進行氣管軟骨再生和周圍氣管修復(fù)。

46.Highly Efficient Sensitized Chiral Hybridized Local and Charge-Transfer Emitter Circularly Polarized Electroluminescence.

高效敏化手性雜化局部和電荷轉(zhuǎn)移發(fā)射器圓偏振電致發(fā)光。

47.In-Depth Understanding of the Effect of Halogen-Induced Stable 2D Bismuth-Based Perovskites for Photocatalytic Hydrogen Evolution Activity.

深入了解鹵素誘導(dǎo)的穩(wěn)定二維鉍基鈣鈦礦對光催化析氫活性的影響。

48.Bimetallic Synergy in Ultrafine Cocatalyst Alloy Nanoparticles for Efficient Photocatalytic Water Splitting.

超細(xì)助催化劑合金納米粒子的雙金屬協(xié)同作用，用于高效光催化水分解。

49.A Bioinspired Photocatalysis and Electrochemiluminescence Scaffold for Simultaneous Degradation and In Situ Evaluation.

用于同時降解和原位評估的仿生光催化和電化學(xué)發(fā)光支架。

50.In Vivo Performance of a Cell and Factor Free Multifunctional Fiber Mesh Modulating Postinfarct Myocardial Remodeling.

無細(xì)胞和無因子多功能纖維網(wǎng)調(diào)節(jié)梗死后心肌重塑的體內(nèi)性能。

51.Multifunctional Metamaterial Implants

In article number 2203533, Amir H. Alavi and co-workers present a new generation of patient-specific metamaterial orthopedic implants that can detect the bone healing progress. The so-called “self-aware implants” can respond to their environment, empower themselves, and self-monitor their condition. Bench-top tests are performed using synthetic biomimetic and human cadaver spine models to evaluate the electrical and mechanical performance of the metamaterial implants.

多功能超材料植入物

在文章編號 2203533 中，Amir H. Alavi 及其同事提出了新一代患者專用超材料骨科植入物，可以檢測骨愈合進度。所謂的“自我意識植入物”可以對環(huán)境做出反應(yīng)，增強自我能力，并自我監(jiān)控自己的狀況。使用合成仿生和人體尸體脊柱模型進行臺式測試，以評估超材料植入物的電氣和機械性能。

52.Adaptive Materials

In article number 2204681, Mizuki Tenjimbayashi and Masanobu Naito develop a superhydrophobic nano-magnetite swarm that imitates a fire ant superorganism. The swarm at the liquid–air interface is transformed from a dispersed state into a 2D raft and a 3D bivouac by magnetic field gradient. The swarm can adaptively transport small objects irrespective of their state (gas/liquid/solid) by switching their state.

自適應(yīng)材料

在文章編號 2204681 中，Mizuki Tenjimbayashi 和 Masanobu Naito 開發(fā)了一種模仿火蟻超級有機體的超疏水納米磁鐵礦群。液-氣界面處的群體通過磁場梯度從分散狀態(tài)轉(zhuǎn)變?yōu)?2D 筏和 3D 露營地。通過切換小物體的狀態(tài)，群可以自適應(yīng)地運輸小物體，無論其狀態(tài)如何（氣體/液體/固體）。

53.Lead-Free Piezoceramics

In article number 2202307, Linglong Li, Dong Wang, and Xiaojie Lou, and co-workers report a computationally aided composition design for discovering high-performance lead-free perovskite piezomaterials. The obtained bismuth sodium titanate-based relaxor-ferroelectric ceramic demonstrates low-hysteresis large strains over a wide range of temperatures, which holds great promise for practical applications of actuator devices operating at room to high temperatures.

無鉛壓電陶瓷

在第 2202307 號文章中，Linglong Li、Dong Wang、Xiaojie Lou 及其同事報告了一種計算輔助成分設(shè)計，用于發(fā)現(xiàn)高性能無鉛鈣鈦礦壓電材料。所獲得的鈦酸鉍鈉基弛豫鐵電陶瓷在較寬的溫度范圍內(nèi)表現(xiàn)出低磁滯大應(yīng)變，這對于在室溫至高溫下工作的致動器器件的實際應(yīng)用具有廣闊的前景。

54.Blue-Phase Liquid Crystals

In article number 2202721, Juan J. de Pablo, Paul F. Nealey, and co-workers establish a generally applicable method of growing blue phase single crystals. They demonstrate that chemical patterns direct the self-assembly of a variety of blue phase forming materials. The cover picture shows a close-up of the disclination structure and molecular orientation in a blue-phase single crystal near the patterned surface.

藍(lán)相液晶

在文章編號 2202721 中，Juan J. de Pablo、Paul F. Nealey 及其同事建立了一種普遍適用的生長藍(lán)相單晶的方法。他們證明化學(xué)模式指導(dǎo)各種藍(lán)相形成材料的自組裝。封面圖片顯示了靠近圖案表面的藍(lán)相單晶的旋錯結(jié)構(gòu)和分子取向的特寫。

55.Wound Healing

In article number 2201108, Zheng Wang, Lin Wang, and co-workers develop a self-hydrophobized adhesive with robust underwater adhesion, resembling a mechanism underpinning the underwater adhesion of mussel foot proteins. This adhesive possesses multiple advantages outperforming commercial adhesives, such as in vivo wound healing-promoting effects, effective fluid leakage sealing, and rapid hemostasis activity.

傷口愈合

在文章編號 2201108 中，Zheng Wang、Lin Wang 及其同事開發(fā)了一種具有強大水下粘附力的自疏水粘合劑，類似于貽貝足蛋白水下粘附的機制。該粘合劑具有優(yōu)于商業(yè)粘合劑的多種優(yōu)點，例如體內(nèi)傷口愈合促進作用、有效的液體滲漏密封和快速止血活性。

56.Nanobiomimetic Medicine.

納米仿生醫(yī)學(xué)。

57.Roles of Ionic Liquids in Adjusting Nature of Ionogels: A Mini Review.

離子液體在調(diào)節(jié)離子凝膠性質(zhì)中的作用：簡短回顧。

58.The Synergy of Biomimetic Design Strategies for Tissue Constructs.

組織結(jié)構(gòu)仿生設(shè)計策略的協(xié)同作用。

59.Patient-Specific Self-Powered Metamaterial Implants for Detecting Bone Healing Progress.

用于檢測骨骼愈合進度的患者專用自供電超材料植入物。

60.Bioinspired Multi-Transformability of Superhydrophobic Nano-Magnetite Swarm for Adaptive Object Transportation.

用于自適應(yīng)物體運輸?shù)某杷{米磁鐵礦群的仿生多重變形能力。

61.High-Performance Strain of Lead-Free Relaxor-Ferroelectric Piezoceramics by the Morphotropic Phase Boundary Modification.

通過同形相界修飾實現(xiàn)無鉛弛豫鐵電壓電陶瓷的高性能應(yīng)變。

62.A Generalizable Approach to Direct the Self-Assembly of Functional Blue-Phase Liquid Crystals.

一種指導(dǎo)功能性藍(lán)相液晶自組裝的通用方法。

63.Bio-Inspired Self-Hydrophobized Sericin Adhesive with Tough Underwater Adhesion Enables Wound Healing and Fluid Leakage Sealing.

仿生自疏水化絲膠粘合劑具有堅韌的水下粘合力，可實現(xiàn)傷口愈合和液體泄漏密封。

64.Rational Materials Design for In Operando Electropolymerization of Evolvable Organic Electrochemical Transistors.

可演化有機電化學(xué)晶體管的操作電聚合的合理材料設(shè)計。

65.Charge Balance in Red QLEDs for High Efficiency and Stability via Ionic Liquid Doping.

通過離子液體摻雜實現(xiàn)紅色 QLED 的電荷平衡，實現(xiàn)高效率和穩(wěn)定性。

66.Carbon Dioxide Valorization via Formate Electrosynthesis in a Wide Potential Window.

在寬電位窗口中通過甲酸鹽電合成實現(xiàn)二氧化碳增值。

67.Broadband Nanoscale Surface-Enhanced Raman Spectroscopy by Multiresonant Nanolaminate Plasmonic Nanocavities on Vertical Nanopillars.

垂直納米柱上多共振納米層等離子體納米腔的寬帶納米級表面增強拉曼光譜。

68.Heat-Triggered Ferri-to-Paramagnetic Transition Accelerates Redox Couple-Mediated Electrocatalytic Water Oxidation.

熱觸發(fā)的鐵向順磁轉(zhuǎn)變加速氧化還原對介導(dǎo)的電催化水氧化。

69.Highly Efficient Deep-Blue Organic Light-Emitting Diodes Based on Rational Molecular Design and Device Engineering.

基于合理分子設(shè)計和器件工程的高效深藍(lán)色有機發(fā)光二極管。

70.Perovskite Mediated Vibronic Coupling of Semiconducting SERS for Biosensing.

用于生物傳感的鈣鈦礦介導(dǎo)的半導(dǎo)體 SERS 振動耦合。

71.Nacre-Inspired Nanocomposite Films with Enhanced Mechanical and Barrier Properties by Self-Assembly of Poly(Lactic Acid) Coated Mica Nanosheets.

通過聚乳酸涂層云母納米片的自組裝，獲得具有增強機械和阻隔性能的珍珠質(zhì)納米復(fù)合薄膜。

72.Towards Low Cost and Sustainable Thin Film Thermoelectric Devices Based on Quaternary Chalcogenides.

邁向基于四元硫?qū)倩锏牡统杀竞涂沙掷m(xù)薄膜熱電器件。

73.Mechanochemistry-Driven Construction of Aza-fused π-Conjugated Networks Toward Enhanced Energy Storage.

機械化學(xué)驅(qū)動的氮雜稠合π共軛網(wǎng)絡(luò)的構(gòu)建以增強能量存儲。

74.Self-Intercalation Tunable Interlayer Exchange Coupling in a Synthetic van der Waals Antiferromagnet.

合成范德華反鐵磁體中的自插層可調(diào)諧層間交換耦合。

75.Rare-Earth-Based Perovskite Cs2AgScCl6:Bi for Strong Full Visible Spectrum Emission.

基于稀土的鈣鈦礦 Cs2AgScCl6:Bi，可實現(xiàn)強全可見光譜發(fā)射。

76.Polymeric Molecular Design Towards Horizontal Zn Electrodeposits at Constrained 2D Zn2+ Diffusion: Dendrite-Free Zn Anode for Long-Life and High-Rate Aqueous Zinc Metal Battery.

受限二維 Zn2+ 擴散下水平鋅電鍍的聚合物分子設(shè)計：用于長壽命和高倍率水系鋅金屬電池的無枝晶鋅陽極。

77.Non-Covalent Interaction of Atomically Dispersed Cu and Zn Pair Sites for Efficient Oxygen Reduction Reaction.

原子分散的銅和鋅對位點的非共價相互作用，用于有效的氧還原反應(yīng)。

78.Cholinium Cations Enable Highly Compact and Dendrite-Free Zn Metal Anodes in Aqueous Electrolytes.

膽堿陽離子可在水電解質(zhì)中形成高度致密且無枝晶的鋅金屬陽極。

79.Finely-Dispersed Ni2Co Nanoalloys on Flower-Like Graphene Microassembly Empowering a Bi-Service Matrix for Superior Lithium–Sulfur Electrochemistry.

花狀石墨烯微組裝上的精細(xì)分散 Ni2Co 納米合金賦予雙服務(wù)矩陣以實現(xiàn)卓越的鋰硫電化學(xué)。

80.Impact of Molecular Weight on Molecular Doping Efficiency of Conjugated Polymers and Resulting Thermoelectric Performances.

分子量對共軛聚合物分子摻雜效率及其熱電性能的影響。

81.Controlled Growth of the Interface of CdWOx/GDY for Hydrogen Energy Conversion.

用于氫能轉(zhuǎn)換的 CdWOx/GDY 界面的受控生長。

82.Evaluation of Entropy-Stabilized (Mg0.2Co0.2Ni0.2Cu0.2Zn0.2)O Oxides Produced via Solvothermal Method or Electrospinning as Anodes in Lithium-Ion Batteries.

通過溶劑熱法或靜電紡絲生產(chǎn)的熵穩(wěn)定 (Mg0.2Co0.2Ni0.2Cu0.2Zn0.2)O 氧化物作為鋰離子電池陽極的評估。

83.Nanosized Fat Emulsion Injection Modulating Local Microenvironment Promotes Angiogenesis in Chronic Wound Healing.

納米脂肪乳注射液調(diào)節(jié)局部微環(huán)境促進慢性傷口愈合中的血管生成。

84.Recombinant Human Collagen Hydrogel Rapidly Reduces Methylglyoxal Adducts within Cardiomyocytes and Improves Borderzone Contractility after Myocardial Infarction in Mice.

重組人膠原水凝膠可快速減少心肌細(xì)胞內(nèi)的甲基乙二醛加合物，并改善小鼠心肌梗塞后的邊界區(qū)收縮力。

85.Stabilized Zn Anode Based on SO42– Trapping Ability and High Hydrogen Evolution Barrier.

基于 SO42 的穩(wěn)定鋅陽極 – 捕獲能力和高析氫勢壘。

86.Quantifying the Excitonic Static Disorder in Organic Semiconductors.

量化有機半導(dǎo)體中的激子靜電無序。

87.High Radiance of Perovskite Light-Emitting Diodes Enabled by Perovskite Heterojunctions.

鈣鈦礦異質(zhì)結(jié)實現(xiàn)鈣鈦礦發(fā)光二極管的高亮度。

88.Janus Electrolyte with Modified Li+ Solvation for High-Performance Solid-State Lithium Batteries.

用于高性能固態(tài)鋰電池的具有改性 Li+ 溶劑化作用的 Janus 電解質(zhì)。

89.Tuning the Performance of Negative Tone Electron Beam Resists for the Next Generation Lithography.

調(diào)整負(fù)調(diào)電子束光刻膠的性能以實現(xiàn)下一代光刻。

90.Breathable and Skin-Conformal Electronics with Hybrid Integration of Microfabricated Multifunctional Sensors and Kirigami-Structured Nanofibrous Substrates.

具有微加工多功能傳感器和剪紙結(jié)構(gòu)納米纖維基材混合集成的透氣且貼膚電子產(chǎn)品。

91.Atomic Insights of Stable, Monodispersed CsPbI3?xBrx (x = 0, 1, 2, 3) Nanocrystals Synthesized by Modified Ligand Cell.

改性配體細(xì)胞合成的穩(wěn)定、單分散 CsPbI3 ? xBrx (x = 0, 1, 2, 3) 納米晶體的原子洞察。

92.Synergetic Effect of Alkali-Site Substitution and Oxygen Vacancy Boosting Vanadate Cathode for Super-Stable Potassium and Zinc Storage.

堿位取代和氧空位增強釩酸鹽陰極的協(xié)同效應(yīng)用于超穩(wěn)定鉀和鋅儲存。

93.Spatially Confined “Edge-to-Edge” Strategy for Achieving Compact Na+/K+ Storage: Constructing Hetero-Ni/Ni3S2 in Densified Carbons.

實現(xiàn)緊湊 Na+/K+ 存儲的空間受限“邊對邊”策略：在致密碳中構(gòu)建異質(zhì) Ni/Ni3S2。

94.High Air Stability and Excellent Li Metal Compatibility of Argyrodite-Based Electrolyte Enabling Superior All-Solid-State Li Metal Batteries.

銀銅礦電解質(zhì)的高空氣穩(wěn)定性和優(yōu)異的鋰金屬相容性可實現(xiàn)卓越的全固態(tài)鋰金屬電池。

95.Living Biointerfaces for the Maintenance of Mesenchymal Stem Cell Phenotypes.

用于維持間充質(zhì)干細(xì)胞表型的活生物界面。

96.Tuning Electronic and Ionic Transport by Carbon-Based Additives in Polymer Electrolytes for Thermoelectric Applications.

通過聚合物電解質(zhì)中的碳基添加劑調(diào)節(jié)熱電應(yīng)用中的電子和離子傳輸。

97.A Bistable Variable Infrared Emissivity Device Based on Reversible Silver Electrodeposition.

基于可逆銀電沉積的雙穩(wěn)態(tài)可變紅外發(fā)射率裝置。

98.Printing-Scalable Ti3C2Tx MXene-Decorated Janus Separator with Expedited Zn2+ Flux toward Stabilized Zn Anodes.

打印可擴展的 Ti3C2Tx MXene 裝飾的 Janus 分離器，具有加速 Zn2+ 通量朝向穩(wěn)定的鋅陽極。

99.Stable Cycling of Room-Temperature Sodium-Sulfur Batteries Based on an In Situ Crosslinked Gel Polymer Electrolyte.

基于原位交聯(lián)凝膠聚合物電解質(zhì)的室溫鈉硫電池的穩(wěn)定循環(huán)。

100.Continuous Self-Oxygenated Double-Layered Hydrogel under Natural Light for Real-Time Infection Monitoring, Enhanced Photodynamic Therapy, and Hypoxia Relief in Refractory Diabetic Wounds Healing.

自然光下連續(xù)自氧化雙層水凝膠用于實時感染監(jiān)測、增強光動力治療和難治性糖尿病傷口愈合中的缺氧緩解。

===================================

由于專欄圖片數(shù)量限制，關(guān)注我的個人公眾號“遠(yuǎn)夢研”查看更多。