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。

Plasmonic all-frame-faceted octahedral nanoframes are synthesized by a chemical carving method, realizing a nontrivial morphological structure. The nanoframes exhibit multiple hot zones with strong near-field focusing capability at a single-particle level. This synthetic strategy will provide a new way for engineering complex nanostructures.

通過化學(xué)雕刻方法合成等離子體全框架面八面體納米框架，實現(xiàn)了非平凡的形態(tài)結(jié)構(gòu)。?納米框架在單粒子水平上表現(xiàn)出多個具有強大近場聚焦能力的熱區(qū)。?這種合成策略將為工程復(fù)雜納米結(jié)構(gòu)提供一種新方法。

Exceptionally fast moving electrons (with room-temperature mobility of 201 cm2 V–1 s–1 in β-Ga2O3) are demonstrated using ion-gel-gated electrical double-layer transistor configuration while revealing a critical role of plasmon–phonon coupling and the anti-screening effect of longitudinal optical phonons.

使用離子凝膠門控雙電層晶體管配置證明了異常快速移動的電子（在 β-Ga2O3 中的室溫遷移率為 201 cm2 V–1 s–1），同時揭示了等離激元-聲子耦合的關(guān)鍵作用和 縱向光學(xué)聲子的反屏蔽效應(yīng)。

A smart city in harmony with nature powered by cost-effective and efficient solar cells. Tungsten diselenide (WSe2) is a van der Waals layered semiconductor that exhibits strong light–matter interaction and acts as an excellent absorber for thin solar cells with a high power per weight ratio.

一個與自然和諧相處的智慧城市，由經(jīng)濟(jì)高效的太陽能電池提供動力。?二硒化鎢 (WSe2) 是一種范德瓦爾斯層狀半導(dǎo)體，具有很強的光-物質(zhì)相互作用，可作為具有高功率/重量比的薄太陽能電池的出色吸收劑。

The cover article describes the implementation of heterogeneous and monolithic 3D analog/RF-digital mixed-signal integrated circuits in which III–V-based RF technology and Si complementary metal-oxide-semiconductor (CMOS) technology are integrated at the device level via a wafer-bonding-based low-temperature process. The top III–V-based RF devices amplify the high-frequency signals, and the bottom Si CMOS converts analog to digital signals and processes digital signals.

封面文章描述了異構(gòu)和單片 3D 模擬/射頻數(shù)字混合信號集成電路的實現(xiàn)，其中基于 III-V 的射頻技術(shù)和硅互補金屬氧化物半導(dǎo)體 (CMOS) 技術(shù)通過 基于晶圓鍵合的低溫工藝。?頂部的 III-V 基射頻器件放大高頻信號，底部的 Si CMOS 將模擬信號轉(zhuǎn)換為數(shù)字信號并處理數(shù)字信號。

Ultrasound-responsive peptide nanogel has been developed to achieve a high level of accumulation at the tumor site by active targeting and long-term blood circulation; meanwhile, under sonication at the tumor site, the nanogel becomes softer with enhanced deformability to achieve deep tumor penetration for enhanced treatment efficiency of triple negative breast cancer.

開發(fā)了超聲響應(yīng)肽納米凝膠，通過主動靶向和長期血液循環(huán)實現(xiàn)在腫瘤部位的高水平積累；?同時，在腫瘤部位超聲處理下，納米凝膠變得更柔軟，變形能力增強，實現(xiàn)腫瘤深度穿透，提高三陰性乳腺癌的治療效率。

1.Ultrasmall Nanodiamonds: Perspectives and Questions.

超小型納米金剛石：觀點和問題。

2.A Figure of Merit for Fast-Charging Li-ion Battery Materials.

快速充電鋰離子電池材料的品質(zhì)因數(shù)。

3.Size Effects of Electrocatalysts: More Than a Variation of Surface Area.

電催化劑的尺寸效應(yīng)：不僅僅是表面積的變化。

4.How Pore Architecture Regulates the Function of Nanoscale Protein Compartments.

孔結(jié)構(gòu)如何調(diào)節(jié)納米級蛋白質(zhì)隔室的功能。

5.Single Atom Catalysts for Selective Methane Oxidation to Oxygenates.

用于將甲烷選擇性氧化成氧化物的單原子催化劑。

6.van der Waals Semiconductor Empowered Vertical Color Sensor.

范德華半導(dǎo)體賦能垂直顏色傳感器。

7.Nanocellulose Paper Semiconductor with a 3D Network Structure and Its Nano–Micro–Macro Trans-Scale Design.

具有 3D 網(wǎng)絡(luò)結(jié)構(gòu)的納米纖維素紙半導(dǎo)體及其納米-微觀-宏觀跨尺度設(shè)計。

8.Nanostructured Temperature Indicator for Cold Chain Logistics.

用于冷鏈物流的納米結(jié)構(gòu)溫度指示器。

9.Fully Printed Optoelectronic Synaptic Transistors Based on Quantum Dot–Metal Oxide Semiconductor Heterojunctions.

基于量子點-金屬氧化物半導(dǎo)體異質(zhì)結(jié)的全印刷光電突觸晶體管。

10.Infant Skin Friendly Adhesive Hydrogel Patch Activated at Body Temperature for Bioelectronics Securing and Diabetic Wound Healing.

在體溫下激活的嬰兒皮膚友好型粘性水凝膠貼片，用于生物電子保護(hù)和糖尿病傷口愈合。

11.A Chemical Nanoreactor Based on a Levitated Nanoparticle in Vacuum.

基于真空懸浮納米粒子的化學(xué)納米反應(yīng)器。

12.Low Temperature Nano Mechano-electrocatalytic CH4 Conversion.

低溫納米機械電催化 CH4 轉(zhuǎn)化。

13.Swarming Magnetic Photoactive Microrobots for Dental Implant Biofilm Eradication.

用于根除牙科植入物生物膜的蜂擁而至的磁性光敏微型機器人。

14.Antibody-Dependent Complement Responses toward SARS-CoV-2 Receptor-Binding Domain Immobilized on “Pseudovirus-like” Nanoparticles.

對固定在“類假病毒”納米顆粒上的 SARS-CoV-2 受體結(jié)合域的抗體依賴性補體反應(yīng)。

15.Geometrically Induced Selectivity and Unidirectional Electroosmosis in Uncharged Nanopores.

不帶電納米孔中的幾何誘導(dǎo)選擇性和單向電滲。

16.Systemic Delivery of an Adjuvant CXCR4–CXCL12 Signaling Inhibitor Encapsulated in Synthetic Protein Nanoparticles for Glioma Immunotherapy.

全身遞送包裹在合成蛋白納米顆粒中的輔助 CXCR4–CXCL12 信號抑制劑用于神經(jīng)膠質(zhì)瘤免疫治療。

17.Probing the Intracellular Delivery of Nanoparticles into Hard-to-Transfect Cells.

探索納米顆粒進(jìn)入難以轉(zhuǎn)染細(xì)胞的細(xì)胞內(nèi)遞送。

18.Patterning of Self-Assembled Monolayers of Amphiphilic Multisegment Ligands on Nanoparticles and Design Parameters for Protein Interactions.

納米顆粒上兩親性多段配體自組裝單層的圖案化和蛋白質(zhì)相互作用的設(shè)計參數(shù)。

19.Probing the Mechanical Properties of DNA Nanostructures with Metadynamics.

用元動力學(xué)探索 DNA 納米結(jié)構(gòu)的機械性能。

20.Nanoengineered Ink for Designing 3D Printable Flexible Bioelectronics.

用于設(shè)計 3D 打印柔性生物電子產(chǎn)品的納米工程墨水。

21.Plasmon–Phonon Coupling in Electrostatically Gated β-Ga2O3 Films with Mobility Exceeding 200 cm2 V–1 s–1.

遷移率超過 200 cm2 V–1 s–1 的靜電門控 β-Ga2O3 薄膜中的等離子體-聲子耦合。

22.Opto-Thermocapillary Nanomotors on Solid Substrates.

固體基板上的光電熱毛細(xì)管納米馬達(dá)。

23.High-Efficiency WSe2 Photovoltaic Devices with Electron-Selective Contacts.

具有電子選擇觸點的高效 WSe2 光伏器件。

24.Inhibition Effect of Ti3C2Tx MXene on Ice Crystals Combined with Laser-Mediated Heating Facilitates High-Performance Cryopreservation.

Ti3C2TX MXene 對冰晶的抑制作用與激光介導(dǎo)的加熱相結(jié)合，有助于實現(xiàn)高性能低溫保存。

25.Sequential Growth of Vertical Transition-Metal Dichalcogenide Heterostructures on Rollable Aluminum Foil.

垂直過渡金屬二硫化物異質(zhì)結(jié)構(gòu)在可卷曲鋁箔上的連續(xù)生長。

26.Domain Wall Automotion in Three-Dimensional Magnetic Helical Interconnectors.

三維磁性螺旋互連器中的疇壁自動運動。

27.Realizing Spontaneously Regular Stacking of Pristine Graphene Oxide by a Chemical-Structure-Engineering Strategy for Mechanically Strong Macroscopic Films.

通過機械強度宏觀薄膜的化學(xué)結(jié)構(gòu)工程策略實現(xiàn)原始氧化石墨烯的自發(fā)規(guī)則堆疊。

28.Mildly Peeling Off and Encapsulating Large MXene Nanosheets with Rigid Biologic Fibrils for Synchronization of Solar Evaporation and Energy Harvest.

用剛性生物纖維輕輕剝離和封裝大型 MXene 納米片，以同步太陽能蒸發(fā)和能量收集。

29.Gallium Nanodroplets are Anti-Inflammatory without Interfering with Iron Homeostasis.

鎵納米液滴具有抗炎作用，不會干擾鐵穩(wěn)態(tài)。

30.Bimetallic Exsolved Heterostructures of Controlled Composition with Tunable Catalytic Properties.

具有可調(diào)催化性能的受控成分的雙金屬外溶異質(zhì)結(jié)構(gòu)。

31.Subsuming the Metal Seed to Transform Binary Metal Chalcogenide Nanocrystals into Multinary Compositions.

包含金屬種子以將二元金屬硫族化物納米晶體轉(zhuǎn)化為多元組合物。

32.Cellulose Hollow Annular Nanoparticles Prepared from High-Intensity Ultrasonic Treatment.

高強度超聲處理制備的纖維素空心環(huán)狀納米粒子。

33.On-Demand Generation of Peroxynitrite from an Integrated Two-Dimensional System for Enhanced Tumor Therapy.

從用于增強腫瘤治療的集成二維系統(tǒng)中按需生成過氧亞硝酸鹽。

34.Controlling Nuclease Degradation of Wireframe DNA Origami with Minor Groove Binders.

用小溝結(jié)合劑控制線框 DNA 折紙的核酸酶降解。

35.Relaxation and Aging of Nanosphere Assemblies at a Water–Oil Interface.

納米球組件在水-油界面的松弛和老化。

36.Emergent Topological Hall Effect from Exchange Coupling in Ferromagnetic Cr2Te3/Noncoplanar Antiferromagnetic Cr2Se3 Bilayers.

鐵磁 Cr2Te3/非共面反鐵磁 Cr2Se3 雙層中交換耦合的緊急拓?fù)浠魻栃?yīng)。

37.Electrically Tunable Localized versus Delocalized Intralayer Moiré Excitons and Trions in a Twisted MoS2 Bilayer.

扭曲的 MoS2 雙層中的電可調(diào)局部與離域?qū)觾?nèi)莫爾激子和三角子。

38.Hybrid Nanocrystals of Small Molecules and Chemically Disordered Polymers.

小分子和化學(xué)無序聚合物的雜化納米晶體。

39.Modulation of Local Cellular Activities using a Photothermal Dye-Based Subcellular-Sized Heat Spot.

使用基于光熱染料的亞細(xì)胞大小的熱點調(diào)節(jié)局部細(xì)胞活動。

40.Fluidity-Guided Assembly of Au@Pt on Liposomes as a Catalase-Powered Nanomotor for Effective Cell Uptake in Cancer Cells and Plant Leaves.

Au@Pt 在脂質(zhì)體上的流體引導(dǎo)組裝作為過氧化氫酶驅(qū)動的納米馬達(dá)，用于癌細(xì)胞和植物葉片中的有效細(xì)胞攝取。

41.Heterogeneous and Monolithic 3D Integration of III–V-Based Radio Frequency Devices on Si CMOS Circuits.

Si CMOS 電路上 III-V 基射頻器件的異構(gòu)和單片 3D 集成。

42.Engineering Graphene Grain Boundaries for Plasmonic Multi-Excitation and Hotspots.

用于等離子體多激發(fā)和熱點的工程石墨烯晶界。

43.Water-Phase Lateral Interconnecting Quantum Dots as Free-Floating 2D Film Assembled by Hydrogen-Bonding Interactions to Acquire Excellent Electrocatalytic Activity.

水相橫向互連量子點作為通過氫鍵相互作用組裝的自由漂浮二維薄膜以獲得優(yōu)異的電催化活性。

44.Water-Induced Self-Assembly and In Situ Mineralization within Plant Phenolic Glycol-Gel toward Ultrastrong and Multifunctional Thermal Insulating Aerogels.

植物酚醛乙二醇凝膠中的水誘導(dǎo)自組裝和原位礦化作用，形成超強和多功能隔熱氣凝膠。

45.Thermodynamic Size Control in Curvature-Frustrated Tubules: Self-Limitation with Open Boundaries.

曲率受挫小管中的熱力學(xué)尺寸控制：開放邊界的自我限制。

46.Holistic Determination of Optoelectronic Properties using High-Throughput Spectroscopy of Surface-Guided CsPbBr3 Nanowires.

使用表面引導(dǎo) CsPbBr3 納米線的高通量光譜法全面測定光電特性。

47.Oxide-Derived Core–Shell Cu@Zn Nanowires for Urea Electrosynthesis from Carbon Dioxide and Nitrate in Water.

氧化物衍生的核殼 Cu@Zn 納米線，用于從水中的二氧化碳和硝酸鹽電合成尿素。

48.3D-Printed Sodiophilic V2CTx/rGO-CNT MXene Microgrid Aerogel for Stable Na Metal Anode with High Areal Capacity.

3D 打印的嗜鈉 V2CTx/rGO-CNT MXene 微網(wǎng)格氣凝膠，用于具有高面容量的穩(wěn)定鈉金屬陽極。

49.Boosting Li-Ion Diffusion Kinetics of Na2Ti6–xMoxO13 via Coherent Dimensional Engineering and Lattice Tailoring: An Alternative High-Rate Anode.

通過相干尺寸工程和晶格剪裁提高 Na2Ti6–xMoxO13 的鋰離子擴(kuò)散動力學(xué)：另一種高速陽極。

50.Cationization-Enhanced Type I and Type II ROS Generation for Photodynamic Treatment of Drug-Resistant Bacteria.

陽離子化增強型 I 型和 II 型 ROS 生成用于光動力治療耐藥細(xì)菌。

51.Spontaneous and Selective Potassium Transport through a Suspended Tailor-Cut Ti3C2Tx MXene Film.

通過懸浮的 Tailor-Cut Ti3C2TX MXene 薄膜自發(fā)和選擇性傳輸鉀。

52.Surface-Preferred Crystal Plane Growth Enabled by Underpotential Deposited Monolayer toward Dendrite-Free Zinc Anode.

通過欠電位沉積單層實現(xiàn)無枝晶鋅陽極的表面優(yōu)選晶面生長。

53.In Situ Synthesis of Organopolysulfides Enabling Spatial and Kinetic Co-Mediation of Sulfur Chemistry.

原位合成有機多硫化物，實現(xiàn)硫化學(xué)的空間和動力學(xué)共介導(dǎo)。

54.Wide-Range Size Fractionation of Graphene Oxide by Flow Field-Flow Fractionation.

通過流場-流動分餾法對氧化石墨烯進(jìn)行寬范圍尺寸分餾。

55.Ultrasound-Responsive Peptide Nanogels to Balance Conflicting Requirements for Deep Tumor Penetration and Prolonged Blood Circulation.

超聲響應(yīng)肽納米凝膠平衡深度腫瘤穿透和延長血液循環(huán)的相互矛盾的要求。

56.Programming Directed Motion with DNA-Grafted Particles.

用 DNA 嫁接粒子編程定向運動。

57.Flexible and Transparent Electrode of Hybrid Ti3C2TX MXene–Silver Nanowires for High-Performance Quantum Dot Light-Emitting Diodes.

用于高性能量子點發(fā)光二極管的混合 Ti3C2TX MXene-銀納米線的柔性透明電極。

58.Plasmonic All-Frame-Faceted Octahedral Nanoframes with Eight Engraved Y-Shaped Hot Zones.

具有八個雕刻 Y 形熱區(qū)的等離子體全框架多面八面體納米框架。

59.Precise Determination of Offset between Optical Axis and Re-Chain Direction in Rhenium Disulfide.

精確測定二硫化錸中光軸和重鏈方向之間的偏移。

60.Carbon Quantum Dots-Based Nanozyme from Coffee Induces Cancer Cell Ferroptosis to Activate Antitumor Immunity.

來自咖啡的基于碳量子點的納米酶誘導(dǎo)癌細(xì)胞鐵死亡以激活抗腫瘤免疫。

61.ER-Targeting PDT Converts Tumors into In Situ Therapeutic Tumor Vaccines.

ER 靶向 PDT 將腫瘤轉(zhuǎn)化為原位治療性腫瘤疫苗。

62.Enhanced Electromagnetic Shielding and Thermal Conductive Properties of Polyolefin Composites with a Ti3C2Tx MXene/Graphene Framework Connected by a Hydrogen-Bonded Interface.

通過氫鍵界面連接的 Ti3C2TX MXene/石墨烯框架增強聚烯烴復(fù)合材料的電磁屏蔽和導(dǎo)熱性能。

63.Probing the Efficacy of Large-Scale Nonporous IGZO for Visible-to-NIR Detection Capability: An Approach toward High-Performance Image Sensor Circuitry.

探索大規(guī)模無孔 IGZO 對可見光到近紅外檢測能力的功效：一種實現(xiàn)高性能圖像傳感器電路的方法。

64.Electrochemical Transparency of Graphene.

石墨烯的電化學(xué)透明度。

65.Texture, Nanotexture, and Structure of Carbon Nanotube-Supported Carbon Cones.

碳納米管支撐的碳錐的紋理、納米紋理和結(jié)構(gòu)。

66.Twisted Light-Induced Photocurrent in a Silicon Nanowire Field-Effect Transistor.

硅納米線場效應(yīng)晶體管中的扭曲光感應(yīng)光電流。

67.Piezotronic Effect-Augmented Cu2–xO–BaTiO3 Sonosensitizers for Multifunctional Cancer Dynamic Therapy.

用于多功能癌癥動態(tài)治療的壓電效應(yīng)增強的 Cu2–xO–BaTiO3 聲敏劑。

68.Rational Design of Polymer Conical Nanoswimmers with Upstream Motility.

具有上游動力的聚合物錐形納米游泳器的合理設(shè)計。

69.MoS2/WSe2 vdW Heterostructures Decorated with PbS Quantum Dots for the Development of High-Performance Photovoltaic and Broadband Photodiodes.

裝飾有 PbS 量子點的 MoS2/WSe2 vdW 異質(zhì)結(jié)構(gòu)，用于開發(fā)高性能光伏和寬帶光電二極管。

70.Observation of an Orientational Glass in a Superlattice of Elliptically-Faceted CdSe Nanocrystals.

橢圓面 CdSe 納米晶體超晶格中定向玻璃的觀察。

71.Bioinspired Anisotropic Slippery Cilia for Stiffness-Controllable Bubble Transport.

用于剛度控制氣泡傳輸?shù)姆律飨虍愋曰w毛。

72.Deep Learning Enabled Neck Motion Detection Using a Triboelectric Nanogenerator.

使用摩擦納米發(fā)電機進(jìn)行深度學(xué)習(xí)啟用頸部運動檢測。

73.Symmetry-Breaking and Self-Sorting in Block Copolymer-Based Multicomponent Nanocomposites.

嵌段共聚物基多組分納米復(fù)合材料中的對稱性破缺和自排序。

74.Laminated Structural Engineering Strategy toward Carbon Nanotube-Based Aerogel Films.

基于碳納米管的氣凝膠薄膜的層壓結(jié)構(gòu)工程策略。

75.Dynamic Reconfiguration of Subcompartment Architectures in Artificial Cells.

人工細(xì)胞中子隔間結(jié)構(gòu)的動態(tài)重構(gòu)。

76.Probing Carrier Dynamics in sp3-Functionalized Single-Walled Carbon Nanotubes with Time-Resolved Terahertz Spectroscopy.

用時間分辨太赫茲光譜探測 sp3 功能化單壁碳納米管中的載流子動力學(xué)。

77.Predicting Laser-Induced Colors of Random Plasmonic Metasurfaces and Optimizing Image Multiplexing Using Deep Learning.

使用深度學(xué)習(xí)預(yù)測隨機等離子體超表面的激光誘導(dǎo)顏色和優(yōu)化圖像復(fù)用。

78.Electrically Suppressed Outflow of Confined Liquid in Hydrophobic Nanopores.

疏水性納米孔中受限液體的電抑制流出。

79.Biocompatible Tantalum Nanoparticles as Radiosensitizers for Enhancing Therapy Efficacy in Primary Tumor and Metastatic Sentinel Lymph Nodes.

生物相容性鉭納米顆粒作為放射增敏劑，用于增強原發(fā)性腫瘤和轉(zhuǎn)移性前哨淋巴結(jié)的治療效果。

80.Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy.

通過可擴(kuò)展非溶劑裝甲策略的可打印和多功能超疏水紙。

81.Magnetic Order, Electrical Doping, and Charge-State Coupling at Amphoteric Defect Sites in Mn-Doped 2D Semiconductors.

Mn 摻雜二維半導(dǎo)體中兩性缺陷位點的磁序、電摻雜和電荷態(tài)耦合。

82.Enamel-like Layer of Nanohydroxyapatite Stabilizes Zn Metal Anodes by Ion Exchange Adsorption and Electrolyte pH Regulation.

納米羥基磷灰石類釉質(zhì)層通過離子交換吸附和電解質(zhì) pH 調(diào)節(jié)穩(wěn)定鋅金屬陽極。

83.Measuring and Then Eliminating Twin Domains in SnSe Thin Films Using Fast Optical Metrology and Molecular Beam Epitaxy.

使用快速光學(xué)計量和分子束外延測量并消除 SnSe 薄膜中的雙疇。

84.Copper Doped Carbon Dots for Addressing Bacterial Biofilm Formation, Wound Infection, and Tooth Staining.

用于解決細(xì)菌生物膜形成、傷口感染和牙齒染色的銅摻雜碳點。

85.2D Monolayers for Superior Transparent Electromagnetic Interference Shielding.

用于卓越透明電磁干擾屏蔽的二維單層膜。

86.Microscale Confinement and Wetting Contrast Enable Enhanced and Tunable Condensation.

微尺度限制和潤濕對比可實現(xiàn)增強和可調(diào)的冷凝。

87.Metal–Organic Frameworks with Assembled Bifunctional Microreactor for Charge Modulation and Strain Generation toward Enhanced Oxygen Electrocatalysis.

具有組裝雙功能微反應(yīng)器的金屬-有機骨架，用于電荷調(diào)制和應(yīng)變產(chǎn)生以增強氧電催化。

88.Deterministic Relation between Optical Polarization and Lattice Symmetry Revealed in Ion-Doped Single Microcrystals.

離子摻雜單微晶中揭示的光偏振和晶格對稱性之間的確定性關(guān)系。

89.Energy Landscapes of Supramolecular Peptide–Drug Conjugates Directed by Linker Selection and Drug Topology.

由接頭選擇和藥物拓?fù)渲笇?dǎo)的超分子肽-藥物偶聯(lián)物的能量景觀。

90.Prussian Blue Nanozyme Promotes the Survival Rate of Skin Flaps by Maintaining a Normal Microenvironment.

普魯士藍(lán)納米酶通過維持正常微環(huán)境促進(jìn)皮瓣存活率。

91.In Situ Chalcogen Leaching Manipulates Reactant Interface toward Efficient Amine Electrooxidation.

原位硫?qū)僭亟隹刂品磻?yīng)物界面以實現(xiàn)高效的胺電氧化。

92.Highly Oriented Direct-Spun Carbon Nanotube Textiles Aligned by In Situ Radio-Frequency Fields.

由原位射頻場對齊的高度定向直紡碳納米管紡織品。

93.Solvent-Induced Isomeric Cu13 Nanoclusters: Chlorine to Copper Charge Transfer Boosting Molecular Oxygen Activation in Sulfide Selective Oxidation.

溶劑誘導(dǎo)的異構(gòu) Cu13 納米團(tuán)簇：氯到銅的電荷轉(zhuǎn)移促進(jìn)硫化物選擇性氧化中的分子氧活化。

94.Thermal Activation of Gold Atom Diffusion in Au@Pt Nanorods.

Au@Pt 納米棒中金原子擴(kuò)散的熱激活。

95.Accelerated Ultrafast Magnetization Dynamics at Graphene/CoGd Interfaces.

石墨烯/CoGd 界面的加速超快磁化動力學(xué)。

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