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.Spherical Viscoelastic Bio-Ink Particles

In article number 2109004, Li-Heng Cai and co-workers develop a 3D bioprinting technique for the digital assembly of viscoelastic spherical bio-ink particles (DASP). Unlike most existing bioprinting techniques that use 1D filaments as building blocks, the DASP uses spherical particles, which are effectively 0D voxels, to create 3D structures. Thus, the DASP enable engineering multiscale porous scaffolds composed of interconnected yet distinguishable islet-laden hydrogel particles for sustained responsive insulin release.

球形粘彈性生物墨水顆粒

在文章編號 2109004 中，Li-Heng Cai 及其同事開發(fā)了一種用于數(shù)字組裝粘彈性球形生物墨水顆粒 (DASP) 的 3D 生物打印技術(shù)。與大多數(shù)使用 1D 細(xì)絲作為構(gòu)建塊的現(xiàn)有生物打印技術(shù)不同，DASP 使用球形顆粒（實際上是 0D 體素）來創(chuàng)建 3D 結(jié)構(gòu)。因此，DASP 能夠設(shè)計由互連但可區(qū)分的負(fù)載胰島的水凝膠顆粒組成的多尺度多孔支架，以實現(xiàn)持續(xù)響應(yīng)的胰島素釋放。

2.Self-Assembled Nanostructures

In article number 2107925, Ender Ercan, Wen-Chang Chen, and co-workers introduce self-assembled nanostructures of perovskite (CsPbBr3) quantum dot (QD)/poly(3-hexylthiophene) (P3HT) composite nanofibrils to understand the morphology/optoelectronic relationship. The composite photonic artificial synapse exhibits fundamental functions, including short-term plasticity, long-term plasticity, and spike-number-dependent and spike-time-dependent plasticity with ultralow energy consumption of 0.18 fJ and zero-gate operation.

自組裝納米結(jié)構(gòu)

在文章編號 2107925 中，Ender Ercan、Wen-Chang Chen 及其同事介紹了鈣鈦礦 (CsPbBr3) 量子點 (QD)/聚(3-己基噻吩) (P3HT) 復(fù)合納米纖維的自組裝納米結(jié)構(gòu)，以了解形態(tài)/光電關(guān)系。復(fù)合光子人工突觸表現(xiàn)出基本功能，包括短期可塑性、長期可塑性、尖峰數(shù)量依賴性和尖峰時間依賴性可塑性，且具有 0.18 fJ 的超低能耗和零門操作。

3.Magnetoelectrical Clothing Generator

In article number 2107682, Weilin Xu, Xiaoming Tao, Guangming Tao, Bin Su, and co-workers show scalable-manufactured flexible magnetoelectrical clothing that can convert mechanical energy generated by daily behavior into electrical energy required for electronic devices, solving the problem of continuous power supply of electronic clothing especially in harsh outdoor environments, and promoting sustainable development in wearable electronics.

磁電服裝發(fā)電機

在文章編號 2107682 中，Weilin Xu、Xiaoming Tao、Guangming Tao、Bin Su 及其同事展示了可擴展制造的柔性磁電服裝，它可以將日常行為產(chǎn)生的機械能轉(zhuǎn)換為電子設(shè)備所需的電能，解決了解決電子服裝尤其是戶外惡劣環(huán)境下的持續(xù)供電問題，促進可穿戴電子產(chǎn)品的可持續(xù)發(fā)展。

4.Biodegradation

Biodegradation of carbon-based nanomaterials (CBNs) has been pursued extensively in the past few years in biomedical research. However, a major drawback to progress is that biomolecular corona (BMC) effects on CBN biodegradation have been omitted from a large number of studies. In article number 2105649, Mehdi Mehrali and co-workers discuss the importance of the BMC and its possible impacts on the biodegradation of CBNs.

生物降解

過去幾年，碳基納米材料（CBN）的生物降解在生物醫(yī)學(xué)研究中得到了廣泛的應(yīng)用。然而，進展的一個主要缺點是大量研究忽略了生物分子電暈（BMC）對 CBN 生物降解的影響。在第 2105649 號文章中，Mehdi Mehrali 和同事討論了 BMC 的重要性及其對 CBN 生物降解的可能影響。

5.CsPbI3 Nanocrystals

In article number 2108687, Milad Abolhasani and co-workers feature a modular flow chemistry strategy for synthesis science studies of CsPbI3 nanocrystals (NCs). The reconfigurable flow reactors enable on-demand selection of the NC synthetic route and provide in-situ access to the optical properties of the in-flow synthesized NCs. Hot-injection NC synthesis in flow provides a new frontier for scalable nanomanufacturing of CsPbI3 NCs for next-generation energy technologies.

CsPbI3 納米晶體

在文章編號 2108687 中，Milad Abolhasani 及其同事介紹了一種用于 CsPbI3 納米晶體 (NC) 合成科學(xué)研究的模塊化流動化學(xué)策略?？芍貥?gòu)的流動反應(yīng)器能夠按需選擇NC合成路線，并提供對流動合成NC的光學(xué)特性的原位訪問。流動熱注射 NC 合成為下一代能源技術(shù)的 CsPbI3 NC 的可擴展納米制造提供了新的前沿。

6.Biodegradation of Carbon-Based Nanomaterials: The Importance of “Biomolecular Corona” Consideration.

碳基納米材料的生物降解：“生物分子電暈”考慮的重要性。

7.Roadmap for Sustainable Mixed Ionic-Electronic Conducting Membranes.

可持續(xù)混合離子電子導(dǎo)電膜路線圖。

8.Self-Assembled Fullerene Nanostructures: Synthesis and Applications.

自組裝富勒烯納米結(jié)構(gòu)：合成和應(yīng)用。

9.Recent Advances in Complex Hollow Electrocatalysts for Water Splitting.

用于水分解的復(fù)雜空心電催化劑的最新進展。

10.An Insight into Skeletal Networks Analysis for Smart Hydrogels.

深入了解智能水凝膠的骨骼網(wǎng)絡(luò)分析。

11.Digital Assembly of Spherical Viscoelastic Bio-Ink Particles.

球形粘彈性生物墨水顆粒的數(shù)字組裝。

12.Self-Assembled Nanostructures of Quantum Dot/Conjugated Polymer Hybrids for Photonic Synaptic Transistors with Ultralow Energy Consumption and Zero-Gate Bias.

用于具有超低能耗和零柵極偏置的光子突觸晶體管的量子點/共軛聚合物混合體的自組裝納米結(jié)構(gòu)。

13.Magnetoelectrical Clothing Generator for High-Performance Transduction from Biomechanical Energy to Electricity.

用于從生物機械能到電能的高性能轉(zhuǎn)換的磁電服裝發(fā)電機。

14.CsPbI3 Nanocrystals Go with the Flow: From Formation Mechanism to Continuous Nanomanufacturing.

CsPbI3 納米晶體隨波逐流：從形成機制到連續(xù)納米制造。

15.Erythrocyte Membrane Camouflaged Metal–Organic Framework Nanodrugs for Remodeled Tumor Microenvironment and Enhanced Tumor Chemotherapy.

用于重塑腫瘤微環(huán)境和增強腫瘤化療的紅細(xì)胞膜偽裝金屬有機框架納米藥物。

16.Multifunctional Optoelectronic Synapse Based on Ferroelectric Van der Waals Heterostructure for Emulating the Entire Human Visual System.

基于鐵電范德華異質(zhì)結(jié)構(gòu)的多功能光電突觸，用于模擬整個人類視覺系統(tǒng)。

17.Scalable Submicron Channel Fabrication by Suspended Nanofiber Lithography for Short-Channel Field-Effect Transistors.

通過懸浮納米纖維光刻技術(shù)制造可擴展的亞微米通道，用于短通道場效應(yīng)晶體管。

18.Boosting Fast and Stable Alkali Metal Ion Storage by Synergistic Engineering of Oxygen Vacancy and Amorphous Structure.

通過氧空位和非晶結(jié)構(gòu)的協(xié)同工程促進快速穩(wěn)定的堿金屬離子存儲。

19.Artificial Spider Silk Based Programmable Woven Textile for Efficient Wound Management.

基于人造蜘蛛絲的可編程機織紡織品，用于有效的傷口管理。

20.Regulation of Molecular Orientations of A–D–A Nonfullerene Acceptors for Organic Photovoltaics: The Role of End-Group π–π Stacking.

有機光伏發(fā)電中 A–D–A 非富勒烯受體分子取向的調(diào)節(jié)：端基 π–π 堆積的作用。

21.In-Liquid Plasma for Surface Engineering of Cu Electrodes with Incorporated SiO2 Nanoparticles: From Micro to Nano.

用于摻入 SiO2 納米顆粒的銅電極表面工程的液體等離子體：從微米到納米。

22.Nanoparticle/Polyelectrolyte Complexes for Biomimetic Constructs.

用于仿生結(jié)構(gòu)的納米顆粒/聚電解質(zhì)復(fù)合物。

23.Interplay of Structure, Charge-Carrier Localization and Dynamics in Copper-Silver-Bismuth-Halide Semiconductors.

銅-銀-鉍-鹵化物半導(dǎo)體中結(jié)構(gòu)、載流子局域化和動力學(xué)的相互作用。

24.Monitoring Autophagy with Atg4B Protease-Activated Aggregation-Induced Emission Probe.

使用 Atg4B 蛋白酶激活的聚集誘導(dǎo)發(fā)射探針監(jiān)測自噬。

25.Surface Modification Engineering Enabling 4.6 V Single-Crystalline Ni-Rich Cathode with Superior Long-Term Cyclability.

表面改性工程使 4.6 V 單晶富鎳陰極具有卓越的長期循環(huán)性能。

26.All-in-One Photoacoustic Theranostics Using Multi-Functional Nanoparticles.

使用多功能納米顆粒的一體化光聲治療診斷學(xué)。

27.High-Performance Ultrathin Molecular Rectifying Diodes Based on Organic/Inorganic Interface Engineering.

基于有機/無機界面工程的高性能超薄分子整流二極管。

28.4D Pixel Mechanical Metamaterials with Programmable and Reconfigurable Properties.

具有可編程和可重新配置屬性的 4D 像素機械超材料。

29.Biopolymer-Templated Deposition of Ordered and Polymorph Titanium Dioxide Thin Films for Improved Surface-Enhanced Raman Scattering Sensitivity.

生物聚合物模板沉積有序和多晶型二氧化鈦薄膜，以提高表面增強拉曼散射靈敏度。

30.Electroluminescent Solar Cells Based on CsPbI3 Perovskite Quantum Dots.

基于 CsPbI3 鈣鈦礦量子點的電致發(fā)光太陽能電池。

31.Highly Breathable Chemically Protective MOF-Fiber Catalysts.

高度透氣的化學(xué)保護 MOF 纖維催化劑。

32.A Perylene-Based Conjugated Polymer Endows Perovskite Solar Cells with 85 °C Durability: The Control of Gas Permeation.

基于苝的共軛聚合物賦予鈣鈦礦太陽能電池85°C的耐久性：氣體滲透的控制。

33.A Structured Phase Change Material with Controllable Thermoconductive Highways Enables Unparalleled Electricity via Solar-Thermal-Electric Conversion.

具有可控導(dǎo)熱高速公路的結(jié)構(gòu)化相變材料可通過太陽能-熱-電轉(zhuǎn)換實現(xiàn)無與倫比的電力。

34.Understanding the Synergistic Effects and Structural Evolution of Co(OH)2 and Co3O4 toward Boosting Electrochemical Charge Storage.

了解 Co(OH)2 和 Co3O4 對促進電化學(xué)電荷存儲的協(xié)同效應(yīng)和結(jié)構(gòu)演化。

35.Flexible Ionic Conjugated Microporous Polymer Membranes for Fast and Selective Ion Transport.

用于快速、選擇性離子傳輸?shù)娜嵝噪x子共軛微孔聚合物膜。

36.Self-Adapting Electrochemical Grinding Strategy for Stable Silicon Anode.

穩(wěn)定硅陽極的自適應(yīng)電化學(xué)研磨策略。

37.Polymer-Grafted Nanoparticles as Single-Component, High Filler Content Composites via Simple Transformative Aging.

通過簡單的轉(zhuǎn)變老化，聚合物接枝納米粒子作為單組分、高填料含量復(fù)合材料。

38.A Polycation-Modified Nanofillers Tailored Polymer Electrolytes Fiber for Versatile Biomechanical Energy Harvesting and Full-Range Personal Healthcare Sensing.

聚陽離子改性納米填料定制聚合物電解質(zhì)纖維，用于多功能生物機械能量收集和全方位個人醫(yī)療保健傳感。

39.Anion-Rectifying Polymeric Single Lithium-Ion Conductors.

陰離子整流聚合物單鋰離子導(dǎo)體。

40.Nature Sunflower Stalk Pith with Zwitterionic Hydrogel Coating for Highly Efficient and Sustainable Solar Evaporation.

帶有兩性離子水凝膠涂層的天然向日葵莖髓，可實現(xiàn)高效和可持續(xù)的太陽能蒸發(fā)。

41.Synergetic Co-Modulation of Crystallization and Co-Passivation of Defects for FAPbI3 Perovskite Solar Cells.

FAPbI3 鈣鈦礦太陽能電池缺陷的協(xié)同共調(diào)制和共鈍化。

42.Flexible and Robust Bacterial Cellulose-Based Ionogels with High Thermoelectric Properties for Low-Grade Heat Harvesting.

靈活且堅固的細(xì)菌纖維素基離子凝膠，具有高熱電性能，適用于低級熱量收集。

43.Initiating VB-Group Laminated NbS2 Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation.

通過相位工程調(diào)制啟動 VB 族疊層 NbS2 電磁波吸收器，實現(xiàn)高達 6.48 GHz 的卓越吸收帶寬。

44.Hydrolytically Degradable Poly(β-amino ester) Resins with Tunable Degradation for 3D Printing by Projection Micro-Stereolithography.

可水解降解的聚（β-氨基酯）樹脂，具有可調(diào)降解能力，用于投影微立體光刻 3D 打印。

45.π-Extended Bodipy Self-Assembly as Supramolecular Photonic Security Ink and Optical Waveguide.

π-擴展 Bodipy 自組裝作為超分子光子安全墨水和光波導(dǎo)。

46.Flexible, Ultra-Light, and 3D Designed White-Light-Emitting Nanofiber Aerogel.

靈活、超輕、3D 設(shè)計的白光發(fā)射納米纖維氣凝膠。

47.3D-Printed Synthetic Hydroxyapatite Scaffold With In Silico Optimized Macrostructure Enhances Bone Formation In Vivo.

3D 打印的合成羥基磷灰石支架具有計算機優(yōu)化的宏觀結(jié)構(gòu)，可增強體內(nèi)骨形成。

48.Cu12Sb4S13 Quantum Dots/Few-Layered Ti3C2 Nanosheets with Enhanced K+ Diffusion Dynamics for Efficient Potassium Ion Storage.

Cu12Sb4S13 量子點/少層 Ti3C2 納米片，具有增強的 K+ 擴散動力學(xué)，可實現(xiàn)高效鉀離子存儲。

49.Synergistic Cascade Hydrogen Evolution Boosting via Integrating Surface Oxophilicity Modification with Carbon Layer Confinement.

通過將表面親氧性改性與碳層限制相結(jié)合來促進協(xié)同級聯(lián)析氫。

50.Immobilization and Intracellular Delivery of Structurally Nanoengineered Antimicrobial Peptide Polymers Using Polyphenol-Based Capsules.

使用多酚膠囊固定和細(xì)胞內(nèi)遞送結(jié)構(gòu)納米工程抗菌肽聚合物。

51.Bioinspired Stochastic Design: Tough and Stiff Ceramic Systems.

仿生隨機設(shè)計：堅韌的陶瓷系統(tǒng)。

52.Logic Devices

In article number 2104030, Jihoon Lee, Tae Kyu An, Insik In, Se Hyun Kim, and co-workers design a fancy strategy for the realization of high-k polysilsesquioxane materials and apply these materials to low-voltage operating unit and integrated devices. This work has inspired research towards the further development of practical organic electronics by providing methods for fabricating high-k dielectrics with various types of polymeric materials.

邏輯器件

在文章編號 2104030 中，Jihoon Lee、Tae Kyu An、Insik In、Se Hyun Kim 及其同事設(shè)計了一種實現(xiàn)高 k 聚倍半硅氧烷材料的奇特策略，并將這些材料應(yīng)用于低壓操作單元和集成器件設(shè)備。這項工作通過提供用各種類型的聚合物材料制造高 k 電介質(zhì)的方法，激發(fā)了對實用有機電子學(xué)進一步發(fā)展的研究。

53.Cannabinoid Sensors

In article number 2107138, Adam J. Shuhendler, Beno?t H. Lessard, and co-workers use phthalocyanine (Pc) based organic thin-film transistors (OTFTs) in combination with a cannabinoid-sensitive chromophore (Fast Blue BB) to detect Δ9-tetrahydrocannabinol (THC). Choice of the Pc central atoms and peripheral substitutions provides unique interactions between the Pc, cannabinoid, and chromophore, inducing a significant film recrystallization leading to changes in OTFT performance.

大麻素傳感器

在文章編號 2107138 中，Adam J. Shuhendler、Beno?t H. Lessard 及其同事使用基于酞菁 (Pc) 的有機薄膜晶體管 (OTFT) 與大麻素敏感發(fā)色團 (Fast Blue BB) 結(jié)合來檢測Δ9-四氫大麻酚（THC）。 Pc 中心原子和外圍取代的選擇提供了 Pc、大麻素和發(fā)色團之間獨特的相互作用，誘導(dǎo)顯著的薄膜再結(jié)晶，從而導(dǎo)致 OTFT 性能的變化。

54.Broadband Emission

In article number 2109618, Wenge Xiao, Ling-Dong Sun, and co-workers develop a visible–near-infrared emitting phosphor based on the combination of the dual roles of Mn2+ in generating red and near-infrared emission and the energy transfer from Ce3+ to Mn2+ in Lu2BaAl4SiO12 garnet. Their study demonstrates that Mn2+ with highly symmetric coordination can serve as an activator for designing near-infrared phosphors.

寬帶發(fā)射

在文章編號 2109618 中，Wenge Shaw、Ling-Dong Sun 及其同事基于 Mn2+ 產(chǎn)生紅光和近紅外發(fā)射以及能量轉(zhuǎn)移的雙重作用，開發(fā)了一種可見光-近紅外發(fā)射熒光粉。 Lu2BaAl4SiO12 石榴石中從 Ce3+ 到 Mn2+。他們的研究表明，具有高度對稱配位的Mn2+可以作為設(shè)計近紅外熒光粉的活化劑。

55.Biomass Transformation

In article number 2109313, Erwin Reisner and co-workers introduce a bias-free thin-film device, which can reform diverse waste streams, including biomass, industrial by-products, and plastic waste, into value-added chemicals and clean H2 fuel using sunlight. The versatile prototype demonstrates the potential of photoelectrochemical assemblies toward waste valorization, approaching the high product rates and selectivity required for commercial implementation.

生物質(zhì)轉(zhuǎn)化

在文章編號 2109313 中，Erwin Reisner 及其同事介紹了一種無偏壓薄膜裝置，該裝置可以將各種廢物流（包括生物質(zhì)、工業(yè)副產(chǎn)品和塑料廢物）轉(zhuǎn)化為增值化學(xué)品和清潔氫氣使用陽光作為燃料。該多功能原型展示了光電化學(xué)組件在廢物增值方面的潛力，接近商業(yè)實施所需的高產(chǎn)率和選擇性。

56.Spatiotemporal Information Processing

In article number 2108440, Ye Zhou and co-workers design a 2D heterostructure-based memtransistor to emulate the Bienenstock–Cooper–Munro theory, since such structures not only induce a spontaneous forgetting process but also offer another gate-tunable forgetting effect. The BCM learning rule is perfectly demonstrated on this memtransistor using triplet-STDP. Furthermore, high-order spatiotemporal recognition is achieved in a feedforward neuron network.

時空信息處理

在文章編號 2108440 中，Ye Zhou 和同事設(shè)計了一種基于二維異質(zhì)結(jié)構(gòu)的記憶晶體管來模擬 Bienenstock-Cooper-Munro 理論，因為這種結(jié)構(gòu)不僅會誘發(fā)自發(fā)遺忘過程，而且還提供另一種門可調(diào)遺忘效應(yīng)。使用三元組 STDP 在該記憶晶體管上完美演示了 BCM 學(xué)習(xí)規(guī)則。此外，在前饋神經(jīng)元網(wǎng)絡(luò)中實現(xiàn)了高階時空識別。

57.Formation, Detection, and Function of Oxygen Vacancy in Metal Oxides for Solar Energy Conversion.

用于太陽能轉(zhuǎn)換的金屬氧化物中氧空位的形成、檢測和功能。

58.Hylozoic by Design: Converging Material and Biological Complexities for Cell-Driven Living Materials with 4D Behaviors.

Hylozoic 設(shè)計：融合材料和生物復(fù)雜性，打造具有 4D 行為的細(xì)胞驅(qū)動活性材料。

59.Organic Semiconductor/Insulator Blends for Elastic Field-Effect Transistors and Sensors.

用于彈性場效應(yīng)晶體管和傳感器的有機半導(dǎo)體/絕緣體混合物。

60.Advanced Characterization Techniques Paving the Way for Commercialization of Low-Cost Prussian Blue Analog Cathodes.

先進的表征技術(shù)為低成本普魯士藍模擬陰極的商業(yè)化鋪平了道路。

61.The Hidden Potential of Polysilsesquioxane for High-k: Analysis of the Origin of its Dielectric Nature and Practical Low-Voltage-Operating Applications beyond the Unit Device.

聚倍半硅氧烷在高 k 值方面的隱藏潛力：其介電性質(zhì)的起源分析以及單元器件之外的實際低壓操作應(yīng)用。

62.Organic Thin-Film Transistors as Cannabinoid Sensors: Effect of Analytes on Phthalocyanine Film Crystallization.

作為大麻素傳感器的有機薄膜晶體管：分析物對酞菁薄膜結(jié)晶的影響。

63.An Extra-Broadband VIS-NIR Emitting Phosphor toward Multifunctional LED Applications.

用于多功能 LED 應(yīng)用的超寬帶 VIS-NIR 發(fā)射熒光粉。

64.Reforming of Soluble Biomass and Plastic Derived Waste Using a Bias-Free Cu30Pd70|Perovskite|Pt Photoelectrochemical Device.

使用無偏壓 Cu30Pd70|鈣鈦礦|Pt 光電化學(xué)裝置重整可溶性生物質(zhì)和塑料衍生廢物。

65.2D Heterostructure for High-Order Spatiotemporal Information Processing.

用于高階時空信息處理的二維異質(zhì)結(jié)構(gòu)。

66.Multistep Crystallization Pathways in the Ambient-Temperature Synthesis of a New Alkali-Activated Binder.

新型堿激活粘合劑的常溫合成中的多步結(jié)晶途徑。

67.Highly Reversible Zn Metal Anode Stabilized by Dense and Anion-Derived Passivation Layer Obtained from Concentrated Hybrid Aqueous Electrolyte.

由濃縮混合水電解質(zhì)獲得的致密陰離子衍生鈍化層穩(wěn)定的高度可逆鋅金屬陽極。

68.Polymer-Mediated Electron Tunneling Towards Solar Water Oxidation.

聚合物介導(dǎo)的電子隧道太陽能水氧化。

69.Plasmon-Induced Pyro-Phototronic Effect Enhancement in Self-Powered UV–Vis Detection with a ZnO/CuO p–n Junction Device.

使用 ZnO/CuO p-n 結(jié)器件增強自供電紫外-可見光檢測中的等離激元誘導(dǎo)熱釋光電子效應(yīng)。

70.Engineering Ir Atomic Configuration for Switching the Pathway of Formic Acid Electrooxidation Reaction.

用于切換甲酸電氧化反應(yīng)途徑的工程 Ir 原子構(gòu)型。

71.Modular Synthetic Tissues from 3D-Printed Building Blocks.

由 3D 打印積木制成的模塊化合成組織。

72.Graphene-Paper-Based Electrodes on Plastic and Textile Supports as New Platforms for Amperometric Biosensing.

塑料和紡織品上的石墨烯紙基電極作為電流生物傳感的新平臺。

73.Manipulating the Interlayer Spacing of 3D MXenes with Improved Stability and Zinc-Ion Storage Capability.

操縱 3D MXene 的層間距，提高穩(wěn)定性和鋅離子存儲能力。

74.Unveiling the Interplay among End Group, Molecular Packing, Doping Level, and Charge Transport in N-Doped Small-Molecule Organic Semiconductors.

揭示氮摻雜小分子有機半導(dǎo)體中端基、分子堆積、摻雜水平和電荷傳輸之間的相互作用。

75.Dense Crystalline–Amorphous Interfacial Sites for Enhanced Electrocatalytic Oxygen Evolution.

用于增強電催化析氧的致密結(jié)晶-非晶界面位點。

76.A Modular Design of Continuously Tunable Full Color Plasmonic Pixels with Broken Rotational Symmetry.

具有破缺旋轉(zhuǎn)對稱性的連續(xù)可調(diào)全色等離子體像素的模塊化設(shè)計。

77.Air Sensitivity and Degradation Evolution of Halide Solid State Electrolytes upon Exposure.

鹵化物固態(tài)電解質(zhì)暴露后的空氣敏感性和降解演變。

78.Exceptionally High Power Factor Ag2Se/Se/Polypyrrole Composite Films for Flexible Thermoelectric Generators.

用于柔性熱電發(fā)電機的極高功率因數(shù) Ag2Se/Se/聚吡咯復(fù)合薄膜。

79.Rear Interface Engineering to Suppress Migration of Iodide Ions for Efficient Perovskite Solar Cells with Minimized Hysteresis.

后界面工程抑制碘離子遷移，實現(xiàn)高效鈣鈦礦太陽能電池的滯后最小化。

80.Significant Enhancement in the Thermoelectric Properties of Ionogels through Solid Network Engineering.

通過固體網(wǎng)絡(luò)工程顯著增強離子凝膠的熱電性能。

81.Green Regenerative Hydrogel Wound Dressing Functionalized by Natural Drug-Food Homologous Small Molecule Self-Assembled Nanospheres.

天然藥食同源小分子自組裝納米球功能化的綠色再生水凝膠傷口敷料。

82.Dual-Design of Nanoporous to Compact Interface via Atomic/Molecular Layer Deposition Enabling a Long-Life Silicon Anode.

通過原子/分子層沉積實現(xiàn)納米多孔與緊湊界面的雙重設(shè)計，實現(xiàn)長壽命硅陽極。

83.Peptide Polymer-Doped Cement Acting as an Effective Treatment of MRSA-Infected Chronic Osteomyelitis.

肽聚合物摻雜水泥可有效治療 MRSA 感染的慢性骨髓炎。

84.Infection Micromilieu-Activated Nanocatalytic Membrane for Orchestrating Rapid Sterilization and Stalled Chronic Wound Regeneration.

感染微環(huán)境激活的納米催化膜，用于協(xié)調(diào)快速滅菌和停滯的慢性傷口再生。

85.Multifunctional Metamaterials for Energy Harvesting and Vibration Control.

用于能量收集和振動控制的多功能超材料。

86.Nanoframes of Co3O4–Mo2N Heterointerfaces Enable High-Performance Bifunctionality toward Both Electrocatalytic HER and OER.

Co3O4-Mo2N 異質(zhì)界面的納米框架可實現(xiàn)電催化 HER 和 OER 的高性能雙功能。

87.Biocompatible Materials Enabled by Biobased Production of Pyomelanin Isoforms Using an Engineered Yarrowia lipolytica.

使用工程化解脂耶氏酵母生物基生產(chǎn)黑色素異構(gòu)體，從而實現(xiàn)生物相容性材料。

88.Head on Comparison of Self- and Nano-Assemblies of Gamma Peptide Nucleic Acid Amphiphiles.

直接比較伽馬肽核酸兩親物的自組裝和納米組裝。

89.Quasi-2D Perovskite Thick Film for X-Ray Detection with Low Detection Limit.

用于低檢測限 X 射線檢測的準(zhǔn)二維鈣鈦礦厚膜。

90.FeP Modulated Adsorption with Hydrogen and Phosphate Species for Hydrogen Oxidation in High-Temperature Polymer Electrolyte Membrane Fuel Cells.

FeP 用氫和磷酸鹽調(diào)節(jié)吸附，用于高溫聚合物電解質(zhì)膜燃料電池中的氫氧化。

91.Alternating Current Electroluminescent Device Powered by Triboelectric Nanogenerator with Capacitively Driven Circuit Strategy.

采用電容驅(qū)動電路策略的摩擦納米發(fā)電機供電的交流電致發(fā)光器件。

92.Direct Detection of Fast Neutrons by Organic Semiconducting Single Crystal Detectors.

有機半導(dǎo)體單晶探測器直接探測快中子。

93.Sulfation of Glycosaminoglycan Hydrogels Instructs Cell Fate and Chondral versus Endochondral Lineage Decision of Skeletal Stem Cells In Vivo.

糖胺聚糖水凝膠的硫酸化指示體內(nèi)骨骼干細(xì)胞的細(xì)胞命運和軟骨與軟骨內(nèi)譜系決定。

94.Multi-Color Au/Ag Nanoparticles for Multiplexed Lateral Flow Assay Based on Spatial Separation and Color Co-Localization.

基于空間分離和顏色共定位的多色金/銀納米顆粒用于多重側(cè)流測定。

95.Microswimmers from Toposelective Nanoparticle Attachment.

來自拓?fù)溥x擇性納米顆粒附件的微型游泳器。

96.Unraveling the Rate-Dependent Stability of Metal Anodes and Its Implication in Designing Cycling Protocol.

揭示金屬陽極的速率依賴性穩(wěn)定性及其在設(shè)計循環(huán)協(xié)議中的意義。

97.Highly Enhanced Triboelectric Performance from Increased Dielectric Constant Induced by Ionic and Interfacial Polarization for Chitosan Based Multi-Modal Sensing System.

基于殼聚糖的多模態(tài)傳感系統(tǒng)的離子和界面極化引起的介電常數(shù)增加，從而高度增強摩擦電性能。

98.A Low-Power CuSCN Hydrogen Sensor Operating Reversibly at Room Temperature.

一種在室溫下可逆工作的低功耗 CuSCN 氫氣傳感器。

99.Modulating Interband Energy Separation of Boron-Doped Fe7S8/FeS2 Electrocatalysts to Boost Alkaline Hydrogen Evolution Reaction.

調(diào)節(jié)摻硼 Fe7S8/FeS2 電催化劑的帶間能量分離以促進堿性析氫反應(yīng)。

100.Controlling Spin Orientation and Metamagnetic Transitions in Anisotropic van der Waals Antiferromagnet CrPS4 by Hydrostatic Pressure.

通過靜水壓力控制各向異性范德華反鐵磁體 CrPS4 中的自旋方向和變磁轉(zhuǎn)變。

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