聲明：本專欄主要對(duì)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(cuò)誤請(qǐng)諒解。

False-colored microdroplets of water are condensing on additively manufactured nanocellular structures generated from the preferential removal of the Al phase by the reduction?oxidation reaction. Microdroplets exhibit extremely low liquid?surface adhesion even at high supersaturation, enabling spontaneous droplet detachment upon coalescence.

假色的水微滴凝結(jié)在增材制造的納米細(xì)胞結(jié)構(gòu)上，該結(jié)構(gòu)是通過還原氧化反應(yīng)優(yōu)先去除鋁相而產(chǎn)生的。?即使在高過飽和度下，微滴也表現(xiàn)出極低的液體表面粘附力，使得液滴在聚結(jié)時(shí)自發(fā)分離。

We demonstrate the scalable integration of Josephson junctions based on the topological insulator (Bi,Sb)2Te3 into superconducting qubit circuits. The cover illustrates the fabrication under ultra-high-vacuum conditions, combining selective area growth of (Bi,Sb)2Te3 nanoribbons and metallization with a local stencil mask to form Josephson junctions. Cover artwork created by Sebastian Droege.

我們展示了基于拓?fù)浣^緣體 (Bi,Sb)2Te3 的約瑟夫森結(jié)到超導(dǎo)量子位電路的可擴(kuò)展集成。?封面展示了超高真空條件下的制造過程，將 (Bi,Sb)2Te3 納米帶的選擇性區(qū)域生長(zhǎng)和金屬化與局部模板掩模相結(jié)合，形成約瑟夫森結(jié)。?封面藝術(shù)作品由 Sebastian Droege 創(chuàng)作。

An electronically switchable magneto-electric transition in a molecular K-TCNQ crystal is shown for up to 105 cycles, paving the way for molecular memory and switching devices.

分子 K-TCNQ 晶體中的電子可切換磁電轉(zhuǎn)變可長(zhǎng)達(dá) 105 個(gè)周期，為分子存儲(chǔ)器和開關(guān)設(shè)備鋪平了道路。

Illustration of edge magnetism discovered in CrGeTe3 using nanoscale scanning SQUID-on-tip microscopy. The color of the arrow represents the direction of each magnetic domain. The interior is demagnetized with a domain size of around 100 nm (half black/yellow). The edge is magnetized on a scale of 10 nm, represented in yellow.

使用納米級(jí)掃描 SQUID-on-tip 顯微鏡在 CrGeTe3 中發(fā)現(xiàn)的邊緣磁性的圖示。?箭頭的顏色代表每個(gè)磁疇的方向。?內(nèi)部被消磁，磁疇尺寸約為 100 nm（半黑/黃）。?邊緣磁化程度為 10 nm，以黃色表示。

Bimetallic Pd?Ag alloy nanoparticles exhibit satisfactory sensing enhancements during H2 sensor applications. In situ TEM is now used to investigate the failure mechanisms of Pd?Ag nanoparticles under operation conditions. With the guidance of the failure mechanism, high-performance H2 sensors with satisfactory long-term stability are obtained.

雙金屬 Pd-Ag 合金納米顆粒在 H2 傳感器應(yīng)用中表現(xiàn)出令人滿意的傳感增強(qiáng)效果。?原位 TEM 現(xiàn)在用于研究 Pd-Ag 納米粒子在操作條件下的失效機(jī)制。?在失效機(jī)制的指導(dǎo)下，獲得了具有令人滿意的長(zhǎng)期穩(wěn)定性的高性能H2傳感器。

Forging an artificial protein cage: Multiple copies of a ring-shaped protein assemble into an artificial, nanosized hollow cage when mixed with gold nanoparticles. The resulting cage has a 3D lattice of regularly arranged gold nanoparticles embedded in its structure.

鍛造人造蛋白質(zhì)籠：當(dāng)與金納米粒子混合時(shí)，環(huán)形蛋白質(zhì)的多個(gè)副本組裝成人造納米級(jí)空心籠。?由此產(chǎn)生的籠子在其結(jié)構(gòu)中嵌入了規(guī)則排列的金納米粒子的 3D 晶格。

Nanoporous active food packaging films with flexibility and biodegradability are developed by applying an oxygen plasma surface treatment onto biodegradable polycaprolactone film. The nanoengineered film-based active food packaging system can enhance the preservation and quality of foods by inhibiting the generation of mold mycelia and controlling water evaporation.

通過對(duì)可生物降解的聚己內(nèi)酯薄膜進(jìn)行氧等離子體表面處理，開發(fā)出具有柔韌性和可生物降解性的納米孔活性食品包裝薄膜。?基于納米工程薄膜的活性食品包裝系統(tǒng)可以通過抑制霉菌菌絲體的產(chǎn)生和控制水分蒸發(fā)來增強(qiáng)食品的保存和質(zhì)量。

Monolayer borophene is metallic and has a lattice structure that depends on the substrate. An extensive structural search based on first-principles calculations shows that bilayer borophene on Ag(111) shares the same ground state as its freestanding counterpart. The bilayer structure contains interlayer bonds that not only localize electronic states to open a bandgap enabling logic operation, but also decouple the whole bilayer from the substrate to some extent, resulting in a quasi-freestanding system.

單層硼烯是金屬的，具有取決于基材的晶格結(jié)構(gòu)。?基于第一性原理計(jì)算的廣泛結(jié)構(gòu)搜索表明，Ag(111) 上的雙層硼烯與其獨(dú)立對(duì)應(yīng)物具有相同的基態(tài)。?雙層結(jié)構(gòu)包含層間鍵，它們不僅定位電子態(tài)以打開帶隙以實(shí)現(xiàn)邏輯操作，而且在一定程度上使整個(gè)雙層與襯底解耦，從而形成準(zhǔn)獨(dú)立式系統(tǒng)。

Ultrastrong coupling of propagating carbon nanotube plasmons and thin-film phonons was revealed by scanning polariton interferometry at mid-infrared frequencies. The results enable applications ranging from substrate-mediated plasmon circuitry to vibrational spectroscopy with enhanced sensitivity.

通過中紅外頻率掃描極化子干涉測(cè)量揭示了傳播碳納米管等離子體激元和薄膜聲子的超強(qiáng)耦合。?這些結(jié)果使得從基板介導(dǎo)的等離激元電路到具有增強(qiáng)靈敏度的振動(dòng)光譜學(xué)等應(yīng)用成為可能。

Showcasing a study of the synergistic effect of the heteroatomic substitution and vacancy engineering for superior electrocatalytic performance. This work introduces vacancy-rich CoFe2O4-based hollow nanospheres by Cr3+ substitution and S2? exchange, exhibiting outstanding electrocatalytic performance towards the OER and ORR.

展示了雜原子取代和空位工程的協(xié)同效應(yīng)對(duì)優(yōu)異電催化性能的研究。?這項(xiàng)工作通過 Cr3+ 取代和 S2- 交換引入了富含空位的 CoFe2O4 基空心納米球，對(duì) OER 和 ORR 表現(xiàn)出出色的電催化性能。

1.Fano-type Effect in Hydrogen-Terminated Pure Nanodiamond.

納米金剛石中的法諾型效應(yīng)。

2.Integration of Topological Insulator Josephson Junctions in Superconducting Qubit Circuits.

超導(dǎo)量子位電路中拓?fù)浣^緣體約瑟夫森結(jié)的集成。

3.Terahertz Metagrating Emitters with Beam Steering and Full Linear Polarization Control.

具有光束轉(zhuǎn)向和全線性偏振控制的太赫茲元光柵發(fā)射器。

4.Novel Field-Based Protein Detection Method Using Light Transmission Spectroscopy and Antibody Functionalized Gold Nanoparticles.

使用光透射光譜和抗體功能化金納米粒子的新型現(xiàn)場(chǎng)蛋白質(zhì)檢測(cè)方法。

5.Atmospheric Water Harvesting by Large-Scale Radiative Cooling Cellulose-Based Fabric.

通過大規(guī)模輻射冷卻纖維素基織物收集大氣水。

6.Lipid Phase Separation in Vesicles Enhances TRAIL-Mediated Cytotoxicity.

囊泡中的脂質(zhì)相分離增強(qiáng) TRAIL 介導(dǎo)的細(xì)胞毒性。

7.Dynamic Gate Control of Aryldiazonium Chemistry on Graphene Field-Effect Transistors.

石墨烯場(chǎng)效應(yīng)晶體管上芳基重氮化學(xué)的動(dòng)態(tài)柵極控制。

8.Electrolyte-Gated Organic Field-Effect Transistors for Quantitative Monitoring of the Molecular Dynamics of Crystallization at the Solid–Liquid Interface.

用于定量監(jiān)測(cè)固液界面結(jié)晶分子動(dòng)力學(xué)的電解質(zhì)門控有機(jī)場(chǎng)效應(yīng)晶體管。

9.Tunable and Robust Nanostructuring for Multifunctional Metal Additively Manufactured Interfaces.

可調(diào)節(jié)且魯棒的納米結(jié)構(gòu)。

10.A High Throughput Approach for Designing Polymers That Mimic the TRAIL Protein.

設(shè)計(jì)模擬 TRAIL 蛋白的聚合物的高通量方法。

11.Scanning Electron Thermal Absorbance Microscopy for Light Element Detection and Atomic Number Analysis.

用于輕元素檢測(cè)和原子序數(shù)分析的掃描電子熱吸收顯微鏡。

12.Asymmetrically Engineered Nanoscale Transistors for On-Demand Sourcing of Terahertz Plasmons.

用于按需采購(gòu)太赫茲等離子體激元的非對(duì)稱設(shè)計(jì)納米級(jí)晶體管。

13.Simultaneous Multicolor DNA-PAINT without Sequential Fluid Exchange Using Spectral Demixing.

分層同時(shí)進(jìn)行多色 DNA-PAINT，無需順序流體交換。

14.In Vivo High-Resolution Bioimaging of Bone Marrow and Fracture Diagnosis Using Lanthanide Nanoprobes with 1525 nm Emission.

使用 1525 nm 發(fā)射的稀土納米探針對(duì)骨髓和骨折進(jìn)行體內(nèi)高分辨率生物成像。

15.Lamprey-Teeth-Inspired Oriented Antibacterial Sericin Microneedles for Infected Wound Healing Improvement.

受七鰓鰻牙齒啟發(fā)的抗菌絲膠微針可改善感染傷口愈合。

16.Second-Harmonic Enhancement from a Nonlinear Plasmonic Metasurface Coupled to an Optical Waveguide.

耦合到光波導(dǎo)的非線性等離激元超表面的二次諧波增強(qiáng)。

17.Electron–Nuclear Coherent Coupling and Nuclear Spin Readout through Optically Polarized VB– Spin States in hBN.

hBN中光學(xué)偏振 VB- 自旋態(tài)進(jìn)行電子-核相干耦合和核自旋讀出。

18.Engineering Interlayer Electron–Phonon Coupling in WS2/BN Heterostructures.

WS2/BN 異質(zhì)結(jié)構(gòu)中的工程層間電子-聲子耦合。

19.Deep-Learning-Assisted Focused Ion Beam Nanofabrication.

深度學(xué)習(xí)輔助聚焦離子束納米加工。

20.Control of Structural Hydrophobicity and Cation Solvation on Interlayer Water Transport during Clay Dehydration.

粘土脫水過程中結(jié)構(gòu)疏水性和陽(yáng)離子溶劑化對(duì)層間水傳輸?shù)目刂啤?/p>

21.Ultrafast Plasmonics Beyond the Perturbative Regime: Breaking the Electronic-Optical Dynamics Correspondence.

超快等離子體：打破電子-光學(xué)動(dòng)力學(xué)對(duì)應(yīng)。

22.Revealing the Interaction of Charge Carrier–Phonon Coupling by Quantification of Electronic Properties at the SrTiO3/TiO2 Heterointerface.

通過量化 SrTiO3/TiO2 異質(zhì)界面的電子特性揭示電荷載流子-聲子耦合的相互作用。

23.Optically Sensitive and Magnetically Identifiable Supraparticles as Indicators of Surface Abrasion.

光學(xué)敏感和磁性可識(shí)別的超粒子作為表面磨損的指標(biāo)。

24.Low Colorectal Tumor Removal by E-Cadherin Destruction-Enabled Tumor Cell Dissociation.

通過 E-鈣粘蛋白破壞使腫瘤細(xì)胞解離來去除低結(jié)直腸腫瘤。

25.Stacking-Dependent Electrical Transport in a Colloidal CdSe Nanoplatelet Thin-Film Transistor.

CdSe納米片薄膜晶體管中依賴于堆疊的電傳輸。

26.Resonant Laser Printing of Optical Metasurfaces.

超表面的共振激光打印。

27.High Spatial and Temporal Resolution NIR-IIb Gastrointestinal Imaging in Mice.

高時(shí)空分辨率 NIR-IIb 小鼠胃腸道成像。

28.Near-Field Generation and Control of Ultrafast, Multipartite Entanglement for Quantum Nanoplasmonic Networks.

等離子體網(wǎng)絡(luò)超快多部分糾纏的近場(chǎng)生成和控制。

29.Sub-nanosecond Intrinsic Response Time of PbS Nanocrystal IR-Photodetectors.

PbS納米晶體紅外光電探測(cè)器的亞納秒本征響應(yīng)時(shí)間。

30.Ultrasensitive Pressure Sensor Sponge Using Liquid Metal Modulated Nitrogen-Doped Graphene Nanosheets.

使用液態(tài)金屬調(diào)制的氮摻雜石墨烯納米片的超靈敏壓力傳感器海綿。

31.DNA-Based MXFs to Enhance Radiotherapy and Stimulate Robust Antitumor Immune Responses.

基于 DNA 的 MXF 可增強(qiáng)放射治療并刺激強(qiáng)大的抗腫瘤免疫反應(yīng)。

32.Raman Optical Activity of 1T-TaS2.

1T-TaS2 的拉曼光學(xué)活性。

33.Dark-Exciton Driven Energy Funneling into Dielectric Inhomogeneities in Two-Dimensional Semiconductors.

暗激子驅(qū)動(dòng)的能量流入二維半導(dǎo)體中的介電不均勻性。

34.Visible Out-of-plane Polarized Luminescence and Electronic Resonance in Black Phosphorus.

黑磷中的可見面外偏振發(fā)光和電子共振。

35.Tip-Induced In-Plane Ferroelectric Superstructure in Zigzag-Wrinkled BaTiO3 Thin Films.

之字形皺紋 BaTiO3 薄膜中尖端誘導(dǎo)的面內(nèi)鐵電超結(jié)構(gòu)。

36.Nanoscale-to-Mesoscale Heterogeneity and Percolating Favored Clusters Govern Ultrastability of Metallic Glasses.

納米尺度到介觀尺度的異質(zhì)性和滲透有利簇控制金屬玻璃的超穩(wěn)定性。

37.CsPbI3-Based Phase-Stable 2D Ruddlesden–Popper Perovskites for Efficient Solar Cells.

基于 CsPbI3 的相穩(wěn)定 2D Ruddlesden –用于高效太陽(yáng)能電池的波普鈣鈦礦。

38.Silicon-Vacancy Nanodiamonds as High Performance Near-Infrared Emitters for Live-Cell Dual-Color Imaging and Thermometry.

硅空位納米金剛石作為高性能近紅外發(fā)射器，用于活細(xì)胞雙色成像和測(cè)溫。

39.General Synergistic Capture-Bonding Superassembly of Atomically Dispersed Catalysts on Micropore-Vacancy Frameworks.

微孔空位框架上原子分散催化劑的一般協(xié)同捕獲鍵合超組裝。

40.New Type of Dynamically “Solid–Liquid” Interconvertible Electrolyte for High-Rate Zn Metal Battery.

用于高倍率鋅金屬電池的新型動(dòng)態(tài)“固液”可互換電解質(zhì)。

41.Quantized Exciton Motion and Fine Energy-Level Structure of a Single Perovskite Nanowire.

單鈣鈦礦納米線的量子化激子運(yùn)動(dòng)和精細(xì)能級(jí)結(jié)構(gòu)。

42.Synthesis of Chiral Au Nanocrystals with Precise Homochiral Facets for Enantioselective Surface Chemistry.

具有精確同手性面的手性金納米晶體的合成，用于對(duì)映選擇性表面化學(xué)。

43.Reconfigurable Magnetic Liquid Metal Robot for High-Performance Droplet Manipulation.

用于高性能液滴操縱的可重構(gòu)磁性液態(tài)金屬機(jī)器人。

44.Electron Optics and Valley Hall Effect of Undulated Graphene.

波狀石墨烯的電子光學(xué)和谷霍爾效應(yīng)。

45.Free-Standing Metal Halide Perovskite Nanowire Arrays with Blue-Green Heterostructures.

具有藍(lán)綠異質(zhì)結(jié)構(gòu)的獨(dú)立式金屬鹵化物鈣鈦礦納米線陣列。

46.Pattern-Selective Molecular Epitaxial Growth of Single-Crystalline Perovskite Arrays toward Ultrasensitive and Ultrafast Photodetector.

單晶鈣鈦礦陣列的模式選擇性分子外延生長(zhǎng)用于超靈敏和超快光電探測(cè)器。

47.Exfoliation of MoS2 Nanosheets Enabled by a Redox-Potential-Matched Chemical Lithiation Reaction.

通過氧化還原電位匹配的化學(xué)鋰化反應(yīng)實(shí)現(xiàn) MoS2 納米片的剝離。

48.Engineering Nanointerfaces of Au25 Clusters for Chaperone-Mediated Peptide Amyloidosis.

用于伴侶介導(dǎo)的肽淀粉樣變性的 Au25 簇的工程納米界面。

49.Gap Opening in Double-Sided Highly Hydrogenated Free-Standing Graphene.

雙面高度氫化獨(dú)立式石墨烯中的間隙開口。

50.A pH-/Enzyme-Responsive Nanoparticle Selectively Targets Endosomal Toll-like Receptors to Potentiate Robust Cancer Vaccination.

pH/酶響應(yīng)納米顆粒選擇性靶向內(nèi)體 Toll 樣受體，增強(qiáng)癌癥疫苗接種效果。

51.Surface Engineering on Commercial Cu Foil for Steering C2H4/CH4 Ratio in CO2 Electroreduction.

用于控制 CO2 電還原中 C2H4/CH4 比例的商用銅箔表面工程。

52.Elucidating the Unique Hot Carrier Cooling in Two-Dimensional Inorganic Halide Perovskites: The Role of Out-of-Plane Carrier–Phonon Coupling.

闡明二維無機(jī)鹵化物鈣鈦礦中獨(dú)特的熱載流子冷卻：面外載流子-聲子耦合的作用。

53.Single-Molecule Resettable DNA Computing via Magnetic Tweezers.

通過磁鑷子進(jìn)行單分子可重置 DNA 計(jì)算。

54.Anomalous Emission Shift of CdSe/CdS/ZnS Quantum Dots at Cryogenic Temperatures.

低溫下CdSe / CdS /ZnS 量子點(diǎn)的異常發(fā)射偏移。

55.Promoting Cell Fusion by Polyvalent DNA Ligands.

通過多價(jià) DNA 配體促進(jìn)細(xì)胞融合。

56.Relaxation Oscillations of an Exciton–Polariton Condensate Driven by Parametric Scattering.

參數(shù)散射驅(qū)動(dòng)的激子-極化子凝聚體的弛豫振蕩。

57.Anisotropic Three-Dimensional Quantum Hall Effect and Magnetotransport in Mesoscopic Weyl Semimetals.

介觀韋爾半金屬中的各向異性三維量子霍爾效應(yīng)和磁輸運(yùn)。

58.Nucleation Kinetics and Structure Evolution of Quasi-Two-Dimensional ZnO at the Air–Water Interface: An In Situ Time-Resolved Grazing Incidence X-ray Scattering Study.

準(zhǔn)二維ZnO的成核動(dòng)力學(xué)和結(jié)構(gòu)演化：原位時(shí)間分辨掠入射 X 射線散射研究。

59.Facile, Atom-Economic, Chemical Thinning Strategy for Ultrathin Lithium Foils.

超薄鋰箔的簡(jiǎn)便、原子經(jīng)濟(jì)的化學(xué)減薄策略。

60.Spheres of Graphene and Carbon Nanotubes Embedding Silicon as Mechanically Resilient Anodes for Lithium-Ion Batteries.

嵌入硅的石墨烯和碳納米管球作為鋰離子電池的機(jī)械彈性陽(yáng)極。

61.Vertical Heterogeneous Integration of Metal Halide Perovskite Quantum-Wires/Nanowires for Flexible Narrowband Photodetectors.

用于柔性窄帶光電探測(cè)器的金屬鹵化物鈣鈦礦量子線/納米線的垂直異質(zhì)集成。

62.Supramolecular Interactions Lead to Remarkably High Thermal Conductivities in Interpenetrated Two-Dimensional Porous Crystals.

超分子相互作用導(dǎo)致互穿二維多孔晶體具有非常高的導(dǎo)熱率。

63.Synchronous Engineering for Biomimetic Murray Porous Membranes Using Isocyanate.

使用異氰酸酯的仿生 Murray 多孔膜的同步工程。

64.Visualization of Dark Excitons in Semiconductor Monolayers for High-Sensitivity Strain Sensing.

用于高靈敏度應(yīng)變傳感的半導(dǎo)體單層暗激子的可視化。

65.Surgical Tumor-Derived Photothermal Nanovaccine for Personalized Cancer Therapy and Prevention.

外科腫瘤衍生光熱納米疫苗。

66.Design of a Venation-like Patterned Surface with Hybrid Wettability for Highly Efficient Fog Harvesting.

具有混合潤(rùn)濕性的類脈絡(luò)圖案表面的設(shè)計(jì)，用于高效除霧。

67.Magnetic Ordering, Anomalous Lifshitz Transition, and Topological Grain Boundaries in Two-Dimensional Biphenylene Network.

二維聯(lián)苯撐網(wǎng)絡(luò)中的磁有序、反常Lifshitz躍遷和拓?fù)渚Ы纭?/p>

68.Mechanisms of Uptake and Membrane Curvature Generation for the Internalization of Silica Nanoparticles by Cells.

細(xì)胞內(nèi)化二氧化硅納米顆粒的攝取和膜曲率生成機(jī)制。

69.Experimental Realization of Two-Dimensional Weak Topological Insulators.

二維弱拓?fù)浣^緣體的實(shí)驗(yàn)實(shí)現(xiàn)。

70.Simultaneous Enhancement in Visible Transparency and Electrical Conductivity via the Physicochemical Alterations of Ultrathin-Silver-Film-Based Transparent Electrodes.

通過超薄銀膜透明電極的物理化學(xué)改變同時(shí)增強(qiáng)可見透明度和導(dǎo)電性。

71.Bioengineered Platelets Combining Chemotherapy and Immunotherapy for Postsurgical Melanoma Treatment: Internal Core-Loaded Doxorubicin and External Surface-Anchored Anti-PD-L1 Antibody Backpacks.

生物工程血小板結(jié)合化療和免疫療法用于術(shù)后黑色素瘤治療：內(nèi)部核心負(fù)載阿霉素和外部表面錨定抗 PD-L1 抗體背包。

72.High-Endurance Magneto-Electronic Switchable Molecular Electronic Crystal.

高耐用性磁電子可切換分子電子晶體。

73.In Situ TEM Technique Revealing the Deactivation Mechanism of Bimetallic Pd–Ag Nanoparticles in Hydrogen Sensors.

原位 TEM 技術(shù)揭示氫傳感器中雙金屬 Pd-Ag 納米粒子的失活機(jī)制。

74.Interior and Edge Magnetization in Thin Exfoliated CrGeTe3 Films.

剝離 CrGeTe3 薄膜的內(nèi)部和邊緣磁化。

75.Nanoimaging of the Edge-Dependent Optical Polarization Anisotropy of Black Phosphorus.

黑磷邊緣相關(guān)光學(xué)偏振各向異性的納米成像。

76.Artificial Protein Cage with Unusual Geometry and Regularly Embedded Gold Nanoparticles.

具有不尋常幾何形狀和規(guī)則嵌入金納米顆粒的人造蛋白質(zhì)籠。

77.Highly Sensitive Self-Actuated Zinc Oxide Resonant Microcantilever Humidity Sensor.

高靈敏度自驅(qū)動(dòng)氧化鋅諧振微懸臂梁濕度傳感器。

78.Correlated States in Strained Twisted Bilayer Graphenes Away from the Magic Angle.

遠(yuǎn)離魔角的應(yīng)變扭曲雙層石墨烯中的相關(guān)態(tài)。

79.In Situ Ion Counting for Improved Implanted Ion Error Rate and Silicon Vacancy Yield Uncertainty.

原位離子計(jì)數(shù)可改善注入離子錯(cuò)誤率和硅空位產(chǎn)率不確定性。

80.Photoinduced Superhydrophilicity of Gd-Doped TiO2 Ellipsoidal Nanoparticles Boosts T1 Contrast Enhancement for Magnetic Resonance Imaging.

摻雜 Gd 的 TiO2 橢圓體納米顆粒的光誘導(dǎo)超親水性可增強(qiáng)磁共振成像的 T1 對(duì)比度。

81.Degradable Magnetic Nanoplatform with Hydroxide Ions Triggered Photoacoustic, MR Imaging, and Photothermal Conversion for Precise Cancer Theranostic.

可降解磁性納米平臺(tái)，具有氫氧根離子觸發(fā)光聲、MR 成像和光熱轉(zhuǎn)換，用于精確的癌癥治療診斷。

82.Microemitter-Based IR Spectroscopy and Imaging with Multilayer Graphene Thermal Emission.

基于微發(fā)射器的多層石墨烯熱發(fā)射紅外光譜和成像。

83.Orbital-Selective High-Temperature Cooper Pairing Developed in the Two-Dimensional Limit.

在二維極限下開發(fā)的軌道選擇性高溫庫(kù)珀配對(duì)。

84.Heterointerface Effect on Two-Step Nucleation Mechanism of Bi Particles.

Bi粒子兩步成核機(jī)制的異質(zhì)界面效應(yīng)。

85.Tip-Enhanced Stokes–Anti-Stokes Scattering from Carbyne.

尖端增強(qiáng)斯托克斯——來自卡賓的反斯托克斯散射。

86.Enhanced Electricity Generation from Graphene Microfluidic Channels for Self-Powered Flexible Sensors.

用于自供電柔性傳感器的石墨烯微流體通道增強(qiáng)發(fā)電。

87.Large-Scale Domain Engineering in Two-Dimensional Ferroelectric CuInP2S6 via Giant Flexoelectric Effect.

通過巨柔電效應(yīng)實(shí)現(xiàn)二維鐵電 CuInP2S6 的大規(guī)模域工程。

88.Observation of Giant Surface Second-Harmonic Generation Coupled to Nematic Orders in the van der Waals Antiferromagnet FePS3.

范德華反鐵磁體 FePS3 中與向列級(jí)耦合的巨型表面二次諧波產(chǎn)生的觀察。

89.Atomic-Level Dynamics of Point Vacancies and the Induced Stretched Defects in 2D Monolayer PtSe2.

二維單層 PtSe2 中點(diǎn)空位的原子級(jí)動(dòng)力學(xué)和誘導(dǎo)的拉伸缺陷。

90.Nucleophilic Interfacial Layer Enables Stable Zn Anodes for Aqueous Zn Batteries.

親核界面層可為水性鋅電池提供穩(wěn)定的鋅陽(yáng)極。

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