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。

Nanophotonic waveguides that implement long optical pathlengths on chips are promising for enabling miniaturized spectroscopic sensors for widespread IoT applications. Here, an all-dielectric metamaterial-assisted comb waveguide was developed. It possesses an extraordinary external optical field confinement, outperforming free-space optics with superior light?matter interaction.

在芯片上實(shí)現(xiàn)長光程的納米光子波導(dǎo)有望為廣泛的物聯(lián)網(wǎng)應(yīng)用提供小型化光譜傳感器。 在這里，開發(fā)了一種全介電超材料輔助梳狀波導(dǎo)。 它具有非凡的外部光場限制，優(yōu)于自由空間光學(xué)，具有卓越的光與物質(zhì)相互作用。

Nanoreactor platform comprising magnetic- and plasmonic-coupled catalytic modules synchronizes reaction steps at unconnected neighboring reaction sites via decoupled nanolocalized energy harvested using distinct antennae-reactors while minimizing the interconflicting effects.

納米反應(yīng)器平臺包含磁耦合和等離子體耦合催化模塊，通過使用不同的天線反應(yīng)器收集的解耦納米局域能量，同步未連接的相鄰反應(yīng)位點(diǎn)的反應(yīng)步驟，同時最大限度地減少相互沖突的影響。

Flexible organic artificial synaptic devices can simulate various synaptic behaviors of organisms by sensing optical and electrical pulse signals in the environment.

柔性有機(jī)人工突觸裝置可以通過感知環(huán)境中的光和電脈沖信號來模擬生物體的各種突觸行為。

An autonomously self-healing and intrinsically stretchable supercapacitor in all-climate environments is constructed based on universally self-healable organohydrogel electrodes with record-high temperature-invariant conductivity. Owing to the hierarchical conducting structure and multiple dynamic interactions, the assembled supercapacitor exhibits instantaneous and complete capacitance recovery and real-time mechanical self-healing over a wide temperature range.

基于具有創(chuàng)紀(jì)錄的高溫不變電導(dǎo)率的通用自修復(fù)有機(jī)水凝膠電極，構(gòu)建了一種在全氣候環(huán)境下自主自愈和本質(zhì)可拉伸的超級電容器。 由于分層導(dǎo)電結(jié)構(gòu)和多重動態(tài)相互作用，組裝的超級電容器在較寬的溫度范圍內(nèi)表現(xiàn)出瞬時完整的電容恢復(fù)和實(shí)時機(jī)械自愈。

The picture shows an artist's view of fluorescence lifetime super-resolution microscopy. In our manuscript, we directly compare performances of the two detector types featuring single-molecule sensitivity: the lifetime camera (Photonscore LINCam25) shown on the right-hand side of the picture, and a single-photon counting module (Excelitas SPCM-AQRH) shown on the left-hand side. The robotic arms holding detectors and a flask reflect our passion to automation of an acquisition process, aiming towards further development of high-throughput super-resolution bioimaging. In our investigation we used multiplexed imaging of single cells, therefore the detectors are directed to a single cell, while the other cells are waiting to be imaged. A solution including DNA molecules poured from the Erlenmeyer flask onto a cell reflects the fact that we used DNA-PAINT to image two cellular targets (mitochondria and peroxisomes), as shown in the real super-resolved image incorporated into a cell bottom. DNA-PAINT is a powerful super-resolution technique based on transient binding of short single-stranded DNA labeled with fluorophores (shown inside the flask) to its complementary strands (not shown), which are in turn conjugated to cellular targets.

圖為熒光壽命超分辨率顯微鏡的藝術(shù)家視角。 在我們的手稿中，我們直接比較了兩種具有單分子靈敏度的探測器類型的性能：圖片右側(cè)顯示的壽命相機(jī) (Photonscore LINCam25) 和單光子計數(shù)模塊 (Excelitas SPCM-AQRH) 如左圖所示。 持有探測器和燒瓶的機(jī)械臂反映了我們對采集過程自動化的熱情，旨在進(jìn)一步開發(fā)高通量超分辨率生物成像。 在我們的研究中，我們使用了單細(xì)胞的多重成像，因此探測器被定向到單個細(xì)胞，而其他細(xì)胞正在等待成像。 包含從錐形瓶倒入細(xì)胞中的 DNA 分子的溶液反映了我們使用 DNA-PAINT 對兩個細(xì)胞目標(biāo)（線粒體和過氧化物酶體）進(jìn)行成像的事實(shí)，如合并到細(xì)胞底部的真實(shí)超分辨率圖像所示。 DNA-PAINT 是一種強(qiáng)大的超分辨率技術(shù)，基于熒光團(tuán)標(biāo)記的短單鏈 DNA（顯示在燒瓶內(nèi)）與其互補(bǔ)鏈（未顯示）的瞬時結(jié)合，而互補(bǔ)鏈又與細(xì)胞靶標(biāo)綴合。

We report a novel, red-detuned, swing-up excitation of a quantum emitter (represented as the Bloch sphere) to produce high-purity single photons without the need for polarization filtering.

我們報告了一種新穎的、紅失諧的、上擺激發(fā)的量子發(fā)射器（表示為布洛赫球），可以產(chǎn)生高純度的單光子，而無需偏振過濾。

This cover shows the structure and operational principle of the waveguide-integrated photodetectors based on two-dimensional materials and demonstrates the possibility of scalable device array fabrication for practical photonic integrated circuits.

本封面展示了基于二維材料的波導(dǎo)集成光電探測器的結(jié)構(gòu)和工作原理，并展示了實(shí)際光子集成電路可擴(kuò)展器件陣列制造的可能性。

Photosensitive nanodiscs composed of human photoreceptors as a biomimicking model of visual cells modulate the light propagation and switch the optical signal.

由人類感光器組成的光敏納米圓盤作為視覺細(xì)胞的仿生模型，調(diào)節(jié)光傳播并切換光信號。

A rational design strategy for a MOF-based electrochemical liquid biopsy.

基于 MOF 的電化學(xué)液體活檢的合理設(shè)計策略。

Pharmaceutical amorphous nanoparticles of cyclosporine A crystallized via a nonclassical pathway cognate with oriented attachment. The crystallization involved multistep crystallographic reorientation and fusion. Mesocrystals emerged as crystallization intermediates towards single crystals.

環(huán)孢菌素 A 的藥用無定形納米顆粒通過具有定向附著的非經(jīng)典途徑結(jié)晶。 結(jié)晶涉及多步晶體學(xué)重新取向和融合。 介晶作為單晶的結(jié)晶中間體出現(xiàn)。

1.Symmetry-Breaking-Induced Frequency Combs in Graphene Resonators.

石墨烯諧振器中對稱破缺引起的頻率梳。

2.Role of Interfacial Water in the Tribological Behavior of Graphene in an Electric Field.

界面水在電場中石墨烯摩擦學(xué)行為中的作用。

3.Nanoscale Control of the Metal–Insulator Transition at LaAlO3/KTaO3 Interfaces.

LaAlO3/KTaO3 界面金屬-絕緣體轉(zhuǎn)變的納米級控制。

4.Electron–Phonon Coupling in a Magic-Angle Twisted-Bilayer Graphene Device from Gate-Dependent Raman Spectroscopy and Atomistic Modeling.

來自門相關(guān)拉曼光譜和原子建模的魔角扭曲雙層石墨烯器件中的電子-聲子耦合。

5.Extending the Spin Excitation Lifetime of a Magnetic Molecule on a Proximitized Superconductor.

延長鄰近超導(dǎo)體上磁性分子的自旋激發(fā)壽命。

6.Elevating Surface-Enhanced Infrared Absorption with Quantum Mechanical Effects of Plasmonic Nanocavities.

利用等離子體納米腔的量子力學(xué)效應(yīng)提高表面增強(qiáng)紅外吸收。

7.Zero-Field Nucleation and Fast Motion of Skyrmions Induced by Nanosecond Current Pulses in a Ferrimagnetic Thin Film.

亞鐵磁薄膜中納秒電流脈沖誘導(dǎo)的斯格明子零場成核和快速運(yùn)動。

8.Anapole States in Gap-Surface Plasmon Resonators.

間隙表面等離子激元諧振器中的阿納波爾態(tài)。

9.Tunable Thermal Switch via Order–Order Transition in Liquid Crystalline Block Copolymer.

通過液晶嵌段共聚物中的有序-有序轉(zhuǎn)變可調(diào)節(jié)熱開關(guān)。

10.Larger-Than-Unity External Optical Field Confinement Enabled by Metamaterial-Assisted Comb Waveguide for Ultrasensitive Long-Wave Infrared Gas Spectroscopy.

超材料輔助梳狀波導(dǎo)實(shí)現(xiàn)大于 1 的外部光場限制，用于超靈敏長波紅外氣體光譜。

11.High Fructose Concentration Increases the Fluorescence Stability of DNA-Templated Copper Nanoclusters by Several Thousand Times.

高果糖濃度可將 DNA 模板銅納米簇的熒光穩(wěn)定性提高數(shù)千倍。

12.Multifunctional cellulosic materials prepared by a reactive DES based zero-waste system.

由反應(yīng)性 DES 零廢物系統(tǒng)制備的多功能纖維素材料。

13.Fast-Response Flexible Temperature Sensors with Atomically Thin Molybdenum Disulfide.

采用原子薄二硫化鉬的快速響應(yīng)柔性溫度傳感器。

14.Sum-Frequency Generation in High-Q GaP Metasurfaces Driven by Leaky-Wave Guided Modes.

由漏波導(dǎo)模驅(qū)動的高 Q 間隙超表面中的和頻生成。

15.Probing Magnetism in Exfoliated VI3 Layers with Magnetotransport.

利用磁傳輸探測剝落的 VI3 層中的磁性。

16.An Endogenous H2S-Activated Nanoplatform for Triple Synergistic Therapy of Colorectal Cancer.

用于結(jié)直腸癌三重協(xié)同治療的內(nèi)源性 H2S 激活納米平臺。

17.Electric Control of Exchange Bias Effect in FePS3–Fe5GeTe2 van der Waals Heterostructures.

FePS3–Fe5GeTe2 范德華異質(zhì)結(jié)構(gòu)中交換偏壓效應(yīng)的電控制。

18.Induced Superconducting Pairing in Integer Quantum Hall Edge States.

整數(shù)量子霍爾邊緣態(tài)中的感應(yīng)超導(dǎo)配對。

19.Second-Order Photoinduced Reflectivity for Retrieval of the Dynamics in Plasmonic Nanostructures.

用于檢索等離子體納米結(jié)構(gòu)動力學(xué)的二階光致反射率。

20.Uncovering Topological Edge States in Twisted Bilayer Graphene.

揭示扭曲雙層石墨烯中的拓?fù)溥吘墤B(tài)。

21.The Role of Epsilon Near Zero and Hot Electrons in Enhanced Dynamic THz Emission from Nonlinear Metasurfaces.

Epsilon 近零電子和熱電子在增強(qiáng)非線性超表面動態(tài)太赫茲發(fā)射中的作用。

22.WSe2 as Transparent Top Gate for Infrared Near-Field Microscopy.

WSe2 作為紅外近場顯微鏡的透明頂柵。

23.Electron Microscopy Probing Electron-Photon Interactions in SiC Nanowires with Ultrawide Energy and Momentum Match.

電子顯微鏡利用超寬能量和動量匹配探測 SiC 納米線中的電子-光子相互作用。

24.Symmetry Breaking and Anomalous Conductivity in a Double-Moiré Superlattice.

雙莫爾超晶格中的對稱破缺和反常電導(dǎo)率。

25.Self-Aligned Plasmonic Lithography for Maskless Fabrication of Large-Area Long-Range Ordered 2D Nanostructures.

用于大面積長范圍有序二維納米結(jié)構(gòu)無掩模制造的自對準(zhǔn)等離子體光刻。

26.Observing Dislocations Transported by Twin Boundaries in Al Thin Film: Unusual Pathways for Dislocation–Twin Boundary Interactions.

觀察鋁薄膜中雙邊界傳輸?shù)奈诲e：位錯-雙邊界相互作用的不尋常途徑。

27.Ultra-photostable DNA FluoroCubes: Mechanism of Photostability and Compatibility with FRET and Dark Quenching.

超光穩(wěn)定 DNA FluoroCubes：光穩(wěn)定性機(jī)制以及 FRET 和暗淬滅的兼容性。

28.Polycatechols with Robust Efficiency in Cytosolic Peptide Delivery via Catechol-Boronate Chemistry.

通過兒茶酚硼酸酯化學(xué)在胞質(zhì)肽遞送中具有強(qiáng)大效率的聚兒茶酚。

29.Atomic-Void van der Waals Channel Waveguides.

原子空范德華通道波導(dǎo)。

30.Photon-Assisted Tunneling of High-Order Multiple Andreev Reflections in Epitaxial Nanowire Josephson Junctions.

外延納米線約瑟夫森結(jié)中高階多次安德烈夫反射的光子輔助隧道效應(yīng)。

31.Alternating Superconducting and Charge Density Wave Monolayers within Bulk 6R-TaS2.

塊狀 6R-TaS2 內(nèi)的交替超導(dǎo)和電荷密度波單層。

32.Ordered Ag Nanoneedle Arrays with Enhanced Electrocatalytic CO2 Reduction via Structure-Induced Inhibition of Hydrogen Evolution.

有序銀納米針陣列通過結(jié)構(gòu)誘導(dǎo)抑制析氫增強(qiáng)電催化 CO2 還原。

33.Unveiling the Effect of Superlattice Interfaces and Intermixing on Phase Change Memory Performance.

揭示超晶格界面和混合對相變存儲器性能的影響。

34.Gate-Defined Electron Interferometer in Bilayer Graphene.

雙層石墨烯中的門定義電子干涉儀。

35.Interface Molecular Functionalization of Cu2O for Synchronous Electrocatalytic Generation of Formate.

Cu2O 的界面分子功能化用于同步電催化生成甲酸鹽。

36.Quantum Interference of Resonance Fluorescence from Germanium-Vacancy Color Centers in Diamond.

鉆石中鍺空位色心共振熒光的量子干涉。

37.Stochastic Local Breakdown of Oxide Film on Ni from Identical-Location Imaging: One Single Site at a Time.

來自同位置成像的鎳上氧化膜的隨機(jī)局部擊穿：一次一個站點(diǎn)。

38.Evolution of the Electronic Structure of Ultrathin MnBi2Te4 Films.

超薄 MnBi2Te4 薄膜電子結(jié)構(gòu)的演變。

39.G-Quadruplex-Proximized Aptamers (G4PA) Efficiently Targeting Cell-Surface Transferrin Receptors for Targeted Cargo Delivery.

G-四聯(lián)體-鄰近適體 (G4PA) 有效靶向細(xì)胞表面轉(zhuǎn)鐵蛋白受體，用于靶向貨物遞送。

40.Improved Carrier Lifetime in BiVO4 by Spin Protection.

通過自旋保護(hù)提高 BiVO4 中的載流子壽命。

41.Spatial Coherence Manipulation on the Disorder-Engineered Statistical Photonic Platform.

無序工程統(tǒng)計光子平臺上的空間相干性操縱。

42.Cellulose-Based Cryogel Microspheres with Nanoporous and Controllable Wrinkled Morphologies for Rapid Hemostasis.

具有納米孔和可控皺紋形態(tài)的纖維素基冷凍凝膠微球，用于快速止血。

43.Mechanistic Insight into Ultrafast Kinetics of Sodium Cointercalation in Few-Layer Graphitic Carbon.

少層石墨碳中鈉共插超快動力學(xué)的機(jī)理洞察。

44.Strengthened d–p Orbital Hybridization through Asymmetric Coordination Engineering of Single-Atom Catalysts for Durable Lithium–Sulfur Batteries.

通過單原子催化劑的不對稱配位工程增強(qiáng)耐用鋰硫電池的 d-p 軌道雜化。

45.Live Streaming of a Single Cell’s Life over a Local pH-Monitoring Nanowire Waveguide.

通過本地 pH 監(jiān)測納米線波導(dǎo)實(shí)時直播單細(xì)胞的生命。

46.Self-Assembled Nanodot Actuator with Changeable Fluorescence by π–π Stacking Force Based on a Four-Armed Foldable Phthalocyanine Molecule and Its Supersensitive Molecular Recognition.

基于四臂可折疊酞菁分子的π-π堆積力自組裝納米點(diǎn)致動器及其超靈敏分子識別。

47.Three-Dimensional-Cultured MSC-Derived Exosome-Hydrogel Hybrid Microneedle Array Patch for Spinal Cord Repair.

用于脊髓修復(fù)的三維培養(yǎng) MSC 衍生的外泌體-水凝膠混合微針陣列貼片。

48.DNA-Templated Ultracompact Optical Antennas for Unidirectional Single-Molecule Emission.

用于單向單分子發(fā)射的 DNA 模板超緊湊光學(xué)天線。

49.Tailoring Silica-Based Nanoscintillators for Peroxynitrite-Potentiated Nitrosative Stress in Postoperative Radiotherapy of Colon Cancer.

定制二氧化硅基納米閃爍體，用于結(jié)腸癌術(shù)后放射治療中的過氧亞硝酸鹽增強(qiáng)亞硝化應(yīng)激。

50.A Nanounit Strategy Disrupts Energy Metabolism and Alleviates Immunosuppression for Cancer Therapy.

納米單元策略可擾亂能量代謝并減輕癌癥治療的免疫抑制。

51.Magnetic–Plasmonic Multimodular Hollow Nanoreactors for Compartmentalized Orthogonal Tandem Catalysis.

用于隔室正交串聯(lián)催化的磁等離子體多模塊空心納米反應(yīng)器。

52.Ultralow Power Wearable Organic Ferroelectric Device for Optoelectronic Neuromorphic Computing.

用于光電神經(jīng)形態(tài)計算的超低功耗可穿戴有機(jī)鐵電器件。

53.Autonomous Self-Healing of Highly Stretchable Supercapacitors at All Climates.

高可拉伸超級電容器在所有氣候條件下的自主自愈。

54.Single-Molecule Fluorescence Lifetime Imaging Using Wide-Field and Confocal-Laser Scanning Microscopy: A Comparative Analysis.

使用寬視場和共焦激光掃描顯微鏡進(jìn)行單分子熒光壽命成像：比較分析。

55.Revealing the Thermal Properties of Superconducting Magic-Angle Twisted Bilayer Graphene.

揭示超導(dǎo)魔角扭曲雙層石墨烯的熱性能。

56.Plasmonic Lithium Niobate Mach–Zehnder Modulators.

等離激元鈮酸鋰馬赫-曾德爾調(diào)制器。

57.Bilayer Wood Membrane with Aligned Ion Nanochannels for Spontaneous Moist-Electric Generation.

具有對齊離子納米通道的雙層木膜，用于自發(fā)濕發(fā)電。

58.Superconducting Proximity in Intrinsic Magnetic Topological Insulator MnBi2Te4–NbN Hybrid Device Modulated by Coulomb Blockade Effect.

由庫侖阻塞效應(yīng)調(diào)制的本征磁拓?fù)浣^緣體 MnBi2Te4-NbN 混合器件中的超導(dǎo)接近。

59.Rapid Joule-Heating Synthesis for Manufacturing High-Entropy Oxides as Efficient Electrocatalysts.

用于制造高熵氧化物作為高效電催化劑的快速焦耳熱合成。

60.Methods of Preparing Nanoscale Vitreous Ice Needles for High-Resolution Cryogenic Characterization.

用于高分辨率低溫表征的納米級玻璃體冰針的制備方法。

61.Coherent Phononics of van der Waals Layers on Nanogratings.

納米光柵上范德華層的相干聲學(xué)。

62.Folic Acid Enables Targeting Delivery of Lipodiscs by Circumventing IgM-Mediated Opsonization.

葉酸能夠通過規(guī)避 IgM 介導(dǎo)的調(diào)理作用來靶向遞送脂質(zhì)。

63.Sintering Behaviors of Supported Nanoparticles Related to Spatial Location by a Quasi-Four-Dimensional TEM.

通過準(zhǔn)四維 TEM 觀察與空間位置相關(guān)的負(fù)載納米粒子的燒結(jié)行為。

64.Purcell Enhancement of Erbium Ions in TiO2 on Silicon Nanocavities.

硅納米腔上 TiO2 中鉺離子的 Purcell 增強(qiáng)。

65.Electric-Field-Mediated In-Sensor Alignment of Antibody’s Orientation to Enhance the Antibody–Antigen Binding for Ultrahigh Sensitivity Sensors.

電場介導(dǎo)的傳感器內(nèi)抗體方向?qū)?zhǔn)，以增強(qiáng)超高靈敏度傳感器的抗體-抗原結(jié)合。

66.Diffusion-Limited Kinetics of Isovalent Cation Exchange in III–V Nanocrystals Dispersed in Molten Salt Reaction Media.

分散在熔鹽反應(yīng)介質(zhì)中的 III-V 納米晶體中等價陽離子交換的擴(kuò)散限制動力學(xué)。

67.Strain Quantum Sensing with Spin Defects in Hexagonal Boron Nitride.

六方氮化硼中自旋缺陷的應(yīng)變量子傳感。

68.Giant Room-Temperature Electrocaloric Effect of Polymer-Ceramic Composites with Orientated BaSrTiO3 Nanofibers.

具有定向 BaSrTiO3 納米纖維的聚合物陶瓷復(fù)合材料的巨大室溫電熱效應(yīng)。

69.SUPER Scheme in Action: Experimental Demonstration of Red-Detuned Excitation of a Quantum Emitter.

量子發(fā)射器紅失諧激勵的實(shí)驗(yàn)演示。

70.Infrared Transparent and Electromagnetic Shielding Correlated Metals via Lattice-Orbital-Charge Coupling.

通過晶格軌道電荷耦合實(shí)現(xiàn)紅外透明和電磁屏蔽相關(guān)金屬。

71.Helper-Polymer Based Five-Element Nanoparticles (FNPs) for Lung-Specific mRNA Delivery with Long-Term Stability after Lyophilization.

基于輔助聚合物的五元素納米顆粒 (FNP)，用于肺特異性 mRNA 遞送，凍干后具有長期穩(wěn)定性。

72.Band Structure Engineering within Two-Dimensional Borocarbonitride Nanosheets for Surface-Enhanced Raman Scattering.

用于表面增強(qiáng)拉曼散射的二維硼碳氮化物納米片內(nèi)的能帶結(jié)構(gòu)工程。

73.Interlayer Exciton Diode and Transistor.

層間激子二極管和晶體管。

74.Engineered Macrophage-Membrane-Coated Nanoparticles with Enhanced PD-1 Expression Induce Immunomodulation for a Synergistic and Targeted Antiglioblastoma Activity.

具有增強(qiáng) PD-1 表達(dá)的工程化巨噬細(xì)胞膜包被納米顆?？烧T導(dǎo)免疫調(diào)節(jié)，從而實(shí)現(xiàn)協(xié)同和靶向抗膠質(zhì)母細(xì)胞瘤活性。

75.Beyond the Selectivity-Capacity Trade-Off: Ultrathin Carbon Nanoplates with Easily Accessible Ultramicropores for High-Efficiency Propylene/Propane Separation.

超越選擇性-容量權(quán)衡：具有易于接近的超微孔的超薄碳納米板，用于高效丙烯/丙烷分離。

76.Directional Manipulation of Electron Transfer by Energy Level Engineering for Efficient Cathodic Oxygen Reduction.

通過能級工程定向操縱電子轉(zhuǎn)移以實(shí)現(xiàn)高效的陰極氧還原。

77.Temperature-Dependent Fracture Resistance of Silicon Nanopillars during Electrochemical Lithiation.

電化學(xué)鋰化過程中硅納米柱的抗斷裂性隨溫度變化。

78.Topological Gradients for Metal Film-Based Strain Sensors.

基于金屬膜的應(yīng)變傳感器的拓?fù)涮荻取?/p>

79.Utilizing Gradient Porous Graphene Substrate as the Solid-Contact Layer To Enhance Wearable Electrochemical Sweat Sensor Sensitivity.

利用梯度多孔石墨烯基底作為固體接觸層來增強(qiáng)可穿戴電化學(xué)汗液傳感器的靈敏度。

80.Improving Photoelectric Conversion with Broadband Perovskite Metasurface.

利用寬帶鈣鈦礦超表面改善光電轉(zhuǎn)換。

81.Enhanced Charge Separation for Efficient Photocatalytic H2 Production by Long-Lived Trap-State-Induced Interfacial Charge Transfer.

通過長壽命陷阱態(tài)誘導(dǎo)界面電荷轉(zhuǎn)移增強(qiáng)電荷分離，實(shí)現(xiàn)高效光催化氫氣生產(chǎn)。

82.Coulomb Screening and Scattering in Atomically Thin Transistors across Dimensional Crossover.

跨維度交叉的原子薄晶體管中的庫侖屏蔽和散射。

83.Ultrasensitive Sub-monolayer Palladium Induced Chirality Switching and Topological Evolution of Skyrmions.

超靈敏亞單層鈀誘導(dǎo)的手性轉(zhuǎn)換和斯格明子的拓?fù)溲莼?/p>

84.Enhancement of Molecular Coherent Anti-Stokes Raman Scattering with Silicon Nanoantennas.

用硅納米天線增強(qiáng)分子相干反斯托克斯拉曼散射。

85.Collective Coupling of 3D Confined Optical Modes in Monolithic Twin Microtube Cavities Formed by Nanomembrane Origami.

納米膜折紙形成的單片雙微管腔中 3D 受限光學(xué)模式的集體耦合。

86.Tortuosity Engineering for Improved Charge Storage Kinetics in High-Areal-Capacity Battery Electrodes.

用于改進(jìn)大面積容量電池電極電荷存儲動力學(xué)的曲折工程。

87.Energy Transfer in Stability-Optimized Perovskite Nanocrystals.

穩(wěn)定性優(yōu)化的鈣鈦礦納米晶體中的能量轉(zhuǎn)移。

88.Anisotropic Gigahertz Antiferromagnetic Resonances of the Easy-Axis van der Waals Antiferromagnet CrSBr.

Easy-Axis 范德華反鐵磁體 CrSBr 的各向異性千兆赫反鐵磁共振。

89.Surfaces Containing Sharp Nanostructures Enhance Antibiotic Efficacy.

含有尖銳納米結(jié)構(gòu)的表面可增強(qiáng)抗生素功效。

90.Effective Stiffness of Hydrated Atomic Force Microscopy Tips.

水合原子力顯微鏡尖端的有效硬度。

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