聲明：本專欄主要對生命科學領域的一些期刊文章標題進行翻譯，所有內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，其他領域如果出現翻譯錯誤請諒解。

1.Cardiac Repair

In article number 2204666, Qiang Zhao, Xiaofeng Ye, Xianming Deng, Hélder A. Santos, and co-workers introduce a microfluidics-assisted single step, green synthesis method for producing targeting ligands free heart homing nanoparticles in a tailored manner. The developed microfluidic platform facilitates an economically feasible and simple yet robust synthesis procedure for nanoparticle production, which shows great clinical translational potential as an alternative post-conditioning routine after revascularization surgery.

心臟修復

在文章編號 2204666 中，Qiang Zhao、Xiaofeng Ye、Xianming Deng、Hélder A. Santos 及其同事介紹了一種微流體輔助的單步綠色合成方法，用于以定制的方式生產無靶向配體的心臟歸巢納米顆粒。開發(fā)的微流體平臺促進了一種經濟可行、簡單而穩(wěn)健的納米顆粒生產合成程序，作為血運重建手術后的替代后處理程序，顯示出巨大的臨床轉化潛力。

2.Sustainable Aqueous Nanomaterials

In article number 2204459, Pawel M. Kozlowski, Sachin Handa, and co-workers show that, when irradiated, aqueous micellar nanomaterial containing Cu(II) nanoparticles in-situ provides micelle-bound Cu(I) species via single electron transfer, enabling ppm level powerful Cu(I) catalysis in water as a sustainable reaction medium.

可持續(xù)水性納米材料

在文章編號 2204459 中，Pawel M. Kozlowski、Sachin Handa 及其同事表明，當受到輻射時，含有 Cu(II) 納米粒子的水性膠束納米材料原位通過單電子提供膠束結合的 Cu(I) 物質轉移，使水中的 ppm 級強大 Cu(I) 催化成為可持續(xù)的反應介質。

3.Single-Crystal Capacitive Sensors

In article number 2204065, Min Tu, Rob Ameloot, and co-workers develop a space-confined synthesis method to fabricate surface-embossed micropatterns and surface-embedded gold electrodes on metal–organic framework single crystals. A capacitive gas sensor is constructed by embedding Au electrodes on HKUST-1 flat single crystals and is used for the investigation of ethanol diffusion in the pores.

單晶電容傳感器

在文章編號 2204065 中，Min Tu、Rob Ameloot 及其同事開發(fā)了一種空間限制合成方法，用于在金屬有機框架單晶上制造表面壓花微圖案和表面嵌入金電極。電容式氣體傳感器是通過在 HKUST-1 扁平單晶上嵌入金電極構建的，用于研究乙醇在孔隙中的擴散。

4.Injectable Hydrogels

In article number 2206554, Lin Yu and co-workers develop an injectable and thermosensitive hydrogel with inherent long-acting NO-releasing capacity. The hydrogel system loaded with β-lapachone and CuCys nanoparticles can synchronously boost intracellular reactive oxygen species and reactive nitrogen species levels, thereby synergistically enhancing the anti-tumor efficacy. This hydrogel is suitable as a platform for extending NO-associated medical applications.

可注射水凝膠

在文章編號 2206554 中，Lin Yu 和同事開發(fā)了一種可注射的熱敏水凝膠，具有固有的長效 NO 釋放能力。負載β-拉帕酮和CuCys納米顆粒的水凝膠系統(tǒng)可以同步提高細胞內活性氧和活性氮水平，從而協(xié)同增強抗腫瘤功效。這種水凝膠適合作為擴展 NO 相關醫(yī)療應用的平臺。

5.Rudorffites and Beyond: Perovskite-Inspired Silver/Copper Pnictohalides for Next-Generation Environmentally Friendly Photovoltaics and Optoelectronics.

魯道夫及其他：鈣鈦礦啟發(fā)的銀/銅鹵化物用于下一代環(huán)保光伏和光電子產品。

6.Unveiling the Dynamic Oxidative Etching Mechanisms of Nanostructured Metals/Metallic Oxides in Liquid Media Through In Situ Transmission Electron Microscopy.

通過原位透射電子顯微鏡揭示液體介質中納米結構金屬/金屬氧化物的動態(tài)氧化蝕刻機制。

7.The Future for Room-Temperature Sodium–Sulfur Batteries: From Persisting Issues to Promising Solutions and Practical Applications.

室溫鈉硫電池的未來：從持續(xù)存在的問題到有希望的解決方案和實際應用。

8.Promoting Cardiac Repair through Simple Engineering of Nanoparticles with Exclusive Targeting Capability toward Myocardial Reperfusion Injury by Thermal Resistant Microfluidic Platform.

通過耐熱微流控平臺對心肌再灌注損傷具有獨特靶向能力的納米顆粒的簡單工程促進心臟修復。

9.Sustainable and Bench-Stable Photoactive Aqueous Nanoaggregates of Cu(II) for ppm Level Cu(I) Catalysis in Water.

可持續(xù)且穩(wěn)定的光活性水性 Cu(II) 納米聚集體，用于水中 ppm 級 Cu(I) 催化。

10.Single-Crystal Capacitive Sensors with Micropatterned Electrodes via Space-Confined Growth of the Metal–Organic Framework HKUST-1.

通過金屬有機框架 HKUST-1 的空間限制生長實現具有微圖案電極的單晶電容傳感器。

11.Sustained Release of Nitric Oxide and Cascade Generation of Reactive Nitrogen/Oxygen Species via an Injectable Hydrogel for Tumor Synergistic Therapy.

通過可注射水凝膠持續(xù)釋放一氧化氮并級聯(lián)產生活性氮/氧，用于腫瘤協(xié)同治療。

12.Excellent Long-Range Charge-Carrier Mobility in 2D Perovskites.

二維鈣鈦礦具有出色的長距離載流子遷移率。

13.Synergism of Flame-Retardant, Self-Healing, High-Conductive and Polar to a Multi-Functional Binder for Lithium–Sulfur Batteries.

阻燃、自愈、高導電性和極性與鋰硫電池多功能粘合劑的協(xié)同作用。

14.Enhanced Hydrogen Permeability of Mixed Protonic–Electronic Conducting Membranes through an In-Situ Exsolution Strategy.

通過原位脫溶策略增強混合質子-電子導電膜的氫滲透性。

15.A Versatile 980 nm Absorbing Aggregation-Induced Emission Luminogen for NIR-II Imaging-Guided Synergistic Photo-Immunotherapy Against Advanced Pancreatic Cancer.

一種多功能 980 nm 吸收聚集誘導發(fā)射發(fā)光劑，用于 NIR-II 成像引導的協(xié)同光免疫療法治療晚期胰腺癌。

16.Unprecedented Wavelength Dependence of an Antimony Chalcohalide Photovoltaic Device.

鹵化銻光伏器件前所未有的波長依賴性。

17.Tunable Ferroelectricity in Van der Waals Layered Antiferroelectric CuCrP2S6.

范德華層狀反鐵電 CuCrP2S6 中的可調諧鐵電性。

18.Dimensional-Transformation of Ternary-Alloy through the Manipulation of Reduction Kinetics.

通過操縱還原動力學實現三元合金的尺寸變換。

19.Metal–Organic Frameworks Nanoarchitectures Boost Catalytic Activity for the Construction of Sensitive Immunosensor.

金屬有機框架納米結構增強了構建敏感免疫傳感器的催化活性。

20.Li-Rich Mn–Mg Layered Oxide as a Novel Ni-/Co-Free Cathode.

富鋰錳-鎂層狀氧化物作為新型無鎳/鈷陰極。

21.High-Performance and High-Stability all-Polymer Photomultiplication-Type Organic Photodiode Using an NDI-Based Polymer Acceptor with Precisely Controlled Backbone Planarity.

高性能和高穩(wěn)定性全聚合物光電倍增型有機光電二極管，采用基于 NDI 的聚合物受體，具有精確控制的主干平面度。

22.Tuning the Laser-Induced Processing of 3D Porous Graphenic Nanostructures by Boron-Doped Diamond Particles for Flexible Microsupercapacitors.

通過摻硼金剛石顆粒調整激光誘導加工用于柔性微型超級電容器的 3D 多孔石墨納米結構。

23.Photothermal-Amplified Single Atom Nanozyme for Biofouling Control in Seawater.

用于海水生物污垢控制的光熱放大單原子納米酶。

24.Inhibiting Stress-Activated Signals to Reverse Heat Resistance for Augmented Photothermal Therapy Based on Biologically Derived Nanotherapeutics.

抑制應激激活信號以逆轉耐熱性，用于基于生物衍生納米療法的增強光熱療法。

25.Elucidating Reaction Pathways of the CO2 Electroreduction via Tailorable Tortuosities and Oxidation States of Cu Nanostructures.

通過可定制的銅納米結構的曲折和氧化態(tài)闡明 CO2 電還原的反應途徑。

26.KBF4 Additive for Alleviating Microstrain, Improving Crystallinity, and Passivating Defects in Inverted Perovskite Solar Cells.

KBF4 添加劑，用于減輕倒置鈣鈦礦太陽能電池中的微應變、提高結晶度和鈍化缺陷。

27.Phase Engineering and Alkali Cation Stabilization for 1T Molybdenum Dichalcogenides Monolayers.

1T 鉬二硫化物單分子層的相工程和堿陽離子穩(wěn)定性。

28.Tailoring Coordination Microenvironment of Cu(I) in Metal–Organic Frameworks for Enhancing Electroreduction of CO2 to CH4.

調整金屬有機框架中 Cu(I) 的配位微環(huán)境以增強 CO2 電還原為 CH4。

29.Ultrathin Self-Standing Covalent Organic Frameworks toward Highly-Efficient Nanofluidic Osmotic Energy Generator.

超薄自立共價有機框架用于高效納流體滲透能發(fā)生器。

30.Paving Pathways Toward Long-Life Graphite/LiNi0.5Mn1.5O4 Full Cells: Electrochemical and Interphasial Points of View.

為長壽命石墨/LiNi0.5Mn1.5O4 全電池鋪平道路：電化學和相間觀點。

31.NIR Photodetectors with Highly Efficient Detectivity Enabled by 2D Fluorinated Dithienopicenocarbazole-Based Ultra-Narrow Bandgap Acceptors.

具有高效探測能力的近紅外光電探測器，由基于 2D 氟化二噻吩并咔唑的超窄帶隙受體實現。

32.Revealing Steric-Hindrance-Dependent Buried Interface Defect Passivation Mechanism in Efficient and Stable Perovskite Solar Cells with Mitigated Tensile Stress.

揭示有效穩(wěn)定的鈣鈦礦太陽能電池中與空間位阻相關的掩埋界面缺陷鈍化機制，并減輕拉伸應力。

33.Impacts of Bond Type and Grafting Density on the Thermal, Structural, and Transport Behaviors of Nanoparticle Organic Hybrid Materials-Based Electrolytes.

鍵類型和接枝密度對納米顆粒有機雜化材料電解質的熱、結構和傳輸行為的影響。

34.Highly-Packed Proximity-Coupled DC-Josephson Junction Arrays by a Direct-Write Approach.

采用直接寫入方法的高封裝鄰近耦合直流約瑟夫森結陣列。

35.Neuron Inspired All-Around Universal Telechelic Polyurea with High Stiffness, Excellent Crack Tolerance, Record-High Adhesion, Outstanding Triboelectricity, and AIE Fluorescence.

Neuron 啟發(fā)的全能通用遙爪聚脲具有高剛性、出色的抗裂性、創(chuàng)紀錄的高附著力、出色的摩擦起電性和 AIE 熒光。

36.Superhydrophobic Phosphonium Modified Robust 3D Covalent Organic Framework for Preferential Trapping of Charge Dispersed Oxoanionic Pollutants.

超疏水磷鎓改性的魯棒 3D 共價有機框架，用于優(yōu)先捕獲電荷分散的含氧陰離子污染物。

37.Mixed-Dimensional van der Waals Engineering for Charge Transfer Enables Wafer-Level Flexible Electronics.

用于電荷轉移的混合維范德華工程實現了晶圓級柔性電子產品。

38.A Gelation-Assisted Approach for Versatile MXene Inks.

適用于多功能 MXene 墨水的凝膠輔助方法。

39.Anomalous Thermoelectric Transport Phenomena from First-Principles Computations of Interband Electron–Phonon Scattering.

帶間電子聲子散射第一原理計算的反常熱電輸運現象。

40.Ultrasensitive Ferroelectric Semiconductor Phototransistors for Photon-Level Detection.

用于光子級檢測的超靈敏鐵電半導體光電晶體管。

41.Highly Efficient Red Perovskite Light-Emitting Diodes with Reduced Efficiency Roll-Off Enabled by Manipulating Crystallization of Quasi-2D Perovskites.

通過操縱準二維鈣鈦礦的結晶實現效率滾降的高效紅色鈣鈦礦發(fā)光二極管。

42.A Two-Step Flexible Ultrasound Strategy to Enhance Tumor Radiotherapy via Metal–Phenolic Network Nanoplatform.

通過金屬酚網絡納米平臺增強腫瘤放射治療的兩步靈活超聲策略。

43.Large-Area Low-Cost Multiscale-Hierarchical Metasurfaces for Multispectral Compatible Camouflage of Dual-Band Lasers, Infrared and Microwave.

用于雙波段激光、紅外和微波多光譜兼容偽裝的大面積低成本多尺度分層超表面。

44.Toward Precision Recognition of Complex Hand Motions: Wearable Thermoelectrics by Synergistic 2D Nanostructure Confinement and Controlled Reduction.

實現復雜手部運動的精確識別：通過協(xié)同二維納米結構限制和受控還原實現可穿戴熱電材料。

45.Heterogeneous Nanodomain Electrolytes for Ultra-Long-Life All-Solid-State Lithium-Metal Batteries.

用于超長壽命全固態(tài)鋰金屬電池的異質納米域電解質。

46.Spatial Control of Oxygen Vacancy Concentration in Monoclinic WO3 Photoanodes for Enhanced Solar Water Splitting.

單斜晶 WO3 光電陽極中氧空位濃度的空間控制，以增強太陽能水分解。

47.Facet Strain Strategy of Atomically Dispersed Fe?N?C Catalyst for Efficient Oxygen Electrocatalysis.

用于高效氧電催化的原子分散 Fe?N?C 催化劑的面應變策略。

48.An Unusual Carbon–Ceramic Composite with Gradients in Composition and Porosity Delivering Outstanding Thermal Protection Performance up to 1900 °C.

一種不尋常的碳陶瓷復合材料，具有成分和孔隙率梯度，可在高達 1900 °C 的溫度下提供出色的熱防護性能。

49.Se-Containing MOF Coated Dual-Fe-Atom Nanozymes With Multi-Enzyme Cascade Activities Protect Against Cerebral Ischemic Reperfusion Injury.

含硒 MOF 涂層雙鐵原子納米酶具有多酶級聯(lián)活性，可預防腦缺血再灌注損傷。

50.4D Printed Multifunctional Composites with Cooling-Rate Mediated Tunable Shape Morphing.

具有冷卻速率介導的可調形狀變形的 4D 打印多功能復合材料。

51.Hybrid Triboelectric-Electromagnetic Nanogenerator with a Double-Sided Fluff and Double Halbach Array for Wave Energy Harvesting.

具有雙面絨毛和雙 Halbach 陣列的混合摩擦電-電磁納米發(fā)電機，用于波能收集。

52.Donor Engineering Tuning the Analog Switching Range and Operational Stability of Organic Synaptic Transistors for Neuromorphic Systems.

捐贈者工程調整神經形態(tài)系統(tǒng)有機突觸晶體管的模擬開關范圍和操作穩(wěn)定性。

53.Covalent Cross-Links Enable the Formation of Ambient-Dried Biomass Aerogels through the Activation of a Triazine Derivative for Energy Storage and Generation.

共價交聯(lián)通過激活三嗪衍生物來形成常溫干燥的生物質氣凝膠，用于能量存儲和發(fā)電。

54.Computational DNA Droplets

In article number 2202322, Masahiro Takinoue and co-workers develop a computational DNA droplet using programmable phase-separated droplets consisting of DNA nanostructures. They demonstrate that the computational DNA droplet can recognize a specific combination of tumor marker microRNAs as molecular inputs and output results of DNA logic operations through DNA droplet division, achieving the fusion of biosensing and molecular computation in DNA droplets.

計算 DNA 液滴

在文章編號 2202322 中，Masahiro Takinoue 和同事使用由 DNA 納米結構組成的可編程相分離液滴開發(fā)了一種計算 DNA 液滴。他們證明，計算DNA液滴可以通過DNA液滴分裂，將腫瘤標志物microRNA的特定組合識別為DNA邏輯運算的分子輸入和輸出結果，實現DNA液滴中生物傳感和分子計算的融合。

55.Molecular Cybernetics

In article number 2201866, Satoshi Murata and co-workers show that in cellular chemical artificial intelligence, information processing such as memory and learning is realized by networking multiple liposomes specialized for sensing, computing, and transforming functions. In this network, all information processing is carried out by molecular reactions. Building a scalable information system by chemical methodology is nothing less than reconstructing cybernetics at the molecular level.

分子控制論

在文章編號 2201866 中，Satoshi Murata 及其同事表明，在細胞化學人工智能中，記憶和學習等信息處理是通過將多個專門用于傳感、計算和轉換功能的脂質體聯(lián)網來實現的。在這個網絡中，所有的信息處理都是通過分子反應進行的。通過化學方法構建可擴展的信息系統(tǒng)無異于在分子水平上重建控制論。

56.Nanoarchitectonics

In article number 2201196, Xiaoming Zhang, Junbai Li, Lifei Zheng, and co-workers show that DNA-based dissipative assemblies mimic naturally occurring out-of-equilibrium systems. Upon the supply of external energy, the DNA-based assembly system can overcome the energy barrier, folding into complex nanostructures and/or performing enzyme-like functions. When the energy supply is discontinued, the internal energy is gradually consumed, which eventually drives the system to the minimum of free energy landscape and recovers the original ground state.

納米結構

在第 2201196 號文章中，Xiaoming Zhang、Junbai Li、Lifei Cheng 及其同事表明，基于 DNA 的耗散組件模擬了自然發(fā)生的非平衡系統(tǒng)。在提供外部能量后，基于 DNA 的組裝系統(tǒng)可以克服能量勢壘，折疊成復雜的納米結構和/或執(zhí)行類似酶的功能。當能量供應中斷時，內部能量逐漸被消耗，最終驅動系統(tǒng)達到自由能景觀最小并恢復到原來的基態(tài)。

57.Biointerface Engineering

In article number 2201069, Mingshu Xiao, Chengqing Yi, Hao Pei, and co-workers focus on nucleic acid-engineered bio-interfaces (including nano-surfaces, cell surfaces, and macroscopic surfaces) and their use in chemical and biological sensing. They review the current development in nucleic acid-engineered bio-interface-based biosensors and how the rational design of such constructs leads to more efficient biosensing platforms.

生物界面工程

在文章編號 2201069 中，Mingshu Shaw、Chengqing Yi、Hao Pei 及其同事重點關注核酸工程生物界面（包括納米表面、細胞表面和宏觀表面）及其在化學和生物傳感中的應用。他們回顧了基于核酸工程生物界面的生物傳感器的當前發(fā)展，以及此類結構的合理設計如何帶來更有效的生物傳感平臺。

58.Molecular Cybernetics: Challenges toward Cellular Chemical Artificial Intelligence.

分子控制論：細胞化學人工智能的挑戰(zhàn)。

59.DNA-Based Dissipative Assembly toward Nanoarchitectonics.

基于 DNA 的納米結構耗散組裝。

60.Biointerface Engineering with Nucleic Acid Materials for Biosensing Applications.

用于生物傳感應用的核酸材料生物界面工程。

61.If Mendel Was Using CRISPR: Genome Editing Meets Non-Mendelian Inheritance.

如果孟德爾使用 CRISPR：基因組編輯遇到非孟德爾遺傳。

62.Lipid Nanoparticle Technologies for Nucleic Acid Delivery: A Nanoarchitectonics Perspective.

用于核酸傳遞的脂質納米粒子技術：納米結構學的視角。

63.Harnessing DNA for Immunotherapy: Cancer, Infectious Diseases, and Beyond.

利用 DNA 進行免疫治療：癌癥、傳染病等。

64.DNA-Based Nanoarchitectures as Eminent Vehicles for Smart Drug Delivery Systems.

基于 DNA 的納米結構作為智能藥物輸送系統(tǒng)的杰出載體。

65.Materialistic Interfaces with Nucleic Acids: Principles and Their Impact.

核酸的物質界面：原理及其影響。

66.Transient Out-of-Equilibrium Nucleic Acid-Based Dissipative Networks and Their Applications.

瞬態(tài)不平衡核酸耗散網絡及其應用。

67.Micro- and Nanorobots Meet DNA.

微型和納米機器人遇見 DNA。

68.Computational DNA Droplets Recognizing miRNA Sequence Inputs Based on Liquid–Liquid Phase Separation.

基于液-液相分離的計算 DNA 液滴識別 miRNA 序列輸入。

69.DNA-Coated Upconversion Nanoparticles for Sensitive Nucleic Acid FRET Biosensing.

用于敏感核酸 FRET 生物傳感的 DNA 包被上轉換納米顆粒。

70.DNA-Engineered Hydrogels with Light-Adaptive Plasmonic Responses.

具有光適應性等離子體響應的 DNA 工程水凝膠。

71.A Programmable Electrochemical Y-Shaped DNA Scaffold Sensor for the Single-Step Detection of Antibodies and Proteins in Untreated Biological Fluids.

一種可編程電化學 Y 形 DNA 支架傳感器，用于單步檢測未經處理的生物液體中的抗體和蛋白質。

72.2D Sn2+-Based Perovskites

In article number 2204870, Yong-Young Noh and co-workers demonstrate the high doping efficiency of halide perovskites using a simple molecular charge transfer approach and provides a new opportunity for employing 2D perovskites in high-efficiency optoelectronic devices. A thin p-type dopant layer, F4-TCNQ and MoO3, deposited using thermal evaporation improves the control of damage-free electronic doping. The efficient charge transfer without deterioration of the perovskite microstructure improves the Hall mobility up to 100 cm2 V?1 s?1.

二維 Sn2+ 基鈣鈦礦

在文章編號 2204870 中，Yong-Young Noh 及其同事使用簡單的分子電荷轉移方法展示了鹵化物鈣鈦礦的高摻雜效率，并為在高效光電器件中使用 2D 鈣鈦礦提供了新的機會。使用熱蒸發(fā)沉積的薄 p 型摻雜劑層 F4-TCNQ 和 MoO3 改善了對無損傷電子摻雜的控制。在不破壞鈣鈦礦微結構的情況下實現有效的電荷轉移，將霍爾遷移率提高至 100 cm2 V ? 1 s ? 1。

73.Molecular Trapping

In article number 2203745, Jingui Duan, Susumu Kitagawa, and co-workers report a trap-and-flow channel crystal, where the flow channel provides an effective shape- and size-dependent sieving path for linear acetylene and carbon dioxide, while the flow channel possesses a customized space of efficient molecular trapping, yielding a record productivity of poly-grade C2H4 from C2H2/CO2/C2H4 mixtures.

分子捕獲

在文章編號 2203745 中，Jingui Duan、Susumu Kitakawa 及其同事報告了一種捕獲和流動通道晶體，其中流動通道為線性乙炔和二氧化碳提供了有效的形狀和尺寸依賴性篩分路徑，同時該流道擁有高效分子捕獲的定制空間，可從 C2H2/CO2/C2H4 混合物中產生創(chuàng)紀錄的多級 C2H4 生產率。

74.Biomechanical Energy Harvesters

In article number 2204304, William W. Yu, Wen Jung Li, Walid A. Daoud, and co-workers demonstrate a high-performance flexible biomechanical energy harvester by switching its interfacial adhesion via hydrogen bonding interactions and solvent evaporation induced phase separation. This wearable power source can generate a record high peak power density of 20.5 W m?2 Hz?1 under a low biomechanical input of 5 N, and can sufficiently power small electronics through harvesting regular or intermittent human motions.

生物機械能量收集器

在文章編號 2204304 中，William W. Yu、Wen Jung Li、Walid A. Daoud 及其同事展示了一種高性能柔性生物機械能量收集器，通過氫鍵相互作用和溶劑蒸發(fā)誘導的相分離來切換其界面粘附力。這種可穿戴電源可以在 5 N 的低生物力學輸入下產生 20.5 W m ? 2 Hz ? 1的創(chuàng)紀錄高峰值功率密度，并且可以通過收集定期或間歇性的人體運動為小型電子設備提供足夠的電力。

75.Resistive Random-Access Memory

In article number 2202951, Shuxia Ren, Jinjin Zhao, and co-workers develop a flexible transparent photoelectric resistive switching memory based on perovskite quantum dots and graphene oxide hybrid films. The high-efficiency resistive switching behaviors are mainly attributed to the accelerated migration of ions within the hybrid film under illumination. This research finding provides a huge space for development of photoelectrical dual-controlled flexible memory devices.

電阻式隨機存取存儲器

在文章編號 2202951 中，Shuxia Ren、Jinjin Zhu 及其同事開發(fā)了一種基于鈣鈦礦量子點和氧化石墨烯混合膜的柔性透明光電電阻開關存儲器。高效阻變行為主要歸因于光照下混合膜內離子的加速遷移。該研究成果為光電雙控柔性存儲器件的發(fā)展提供了巨大的空間。

76.Focused-Ion-Beam Machining

Sacrificial masking films enable focused-ion-beam machining of complex nanostructures beyond the resolution limit of the ion beam, but current understanding of this super-resolution effect is both empirical and spatial. In article number 2111840, Samuel M. Stavis and co-workers introduce chromia as a multifuntional masking material and develop new theory that elucidates the resolution–throughput tradespace, revealing that the dominant advantage of the super-resolution effect is temporal.

聚焦離子束加工

犧牲掩模膜能夠對復雜納米結構進行聚焦離子束加工，超出離子束的分辨率極限，但目前對這種超分辨率效應的理解既是經驗性的，也是空間性的。在第 2111840 號文章中，Samuel M. Stavis 及其同事介紹了氧化鉻作為一種多功能掩蔽材料，并發(fā)展了闡明分辨率與吞吐量權衡空間的新理論，揭示了超分辨率效應的主導優(yōu)勢是時間性的。

77.Pentagonal 2D Transition Metal Dichalcogenides: PdSe2 and Beyond.

五方二維過渡金屬二硫化物：PdSe2 及其他。

78.Electrically Conductive 2D Material Coatings for Flexible and Stretchable Electronics: A Comparative Review of Graphenes and MXenes.

用于柔性和可拉伸電子產品的導電 2D 材料涂層：石墨烯和 MXene 的比較綜述。

79.Atomic-Level Design of Active Site on Two-Dimensional MoS2 toward Efficient Hydrogen Evolution: Experiment, Theory, and Artificial Intelligence Modelling.

二維 MoS2 活性位點原子級設計以實現高效析氫：實驗、理論和人工智能建模。

80.Molecular Doping Enabling Mobility Boosting of 2D Sn2+-Based Perovskites.

分子摻雜可提高 2D Sn2+ 基鈣鈦礦的遷移率。

81.Shape- and Size-Dependent Kinetic Ethylene Sieving from a Ternary Mixture by a Trap-and-Flow Channel Crystal.

通過捕集流動通道晶體從三元混合物中進行形狀和尺寸相關的動力學乙烯篩分。

82.High-Performance Biomechanical Energy Harvester Enabled by Switching Interfacial Adhesion via Hydrogen Bonding and Phase Separation.

通過氫鍵和相分離切換界面粘附力實現高性能生物機械能量收集器。

83.Flexible Transparent High-Efficiency Photoelectric Perovskite Resistive Switching Memory.

柔性透明高效光電鈣鈦礦電阻開關存儲器。

84.Unmasking the Resolution–Throughput Tradespace of Focused-Ion-Beam Machining.

揭示聚焦離子束加工的分辨率與吞吐量的權衡空間。

85.Unravelling the Origin of Ultra-Low Conductivity in SrTiO3 Thin Films: Sr Vacancies and Ti on A-Sites Cause Fermi Level Pinning.

揭開 SrTiO3 薄膜超低電導率的起源：A 位上的 Sr 空位和 Ti 導致費米能級釘扎。

86.Tailoring Plasmonic Bimetallic Nanocatalysts Toward Sunlight-Driven H2 Production.

定制等離激元雙金屬納米催化劑以實現陽光驅動的氫氣生產。

87.Coordination Number Dependent Catalytic Activity of Single-Atom Cobalt Catalysts for Fenton-Like Reaction.

單原子鈷催化劑對類芬頓反應的配位數依賴性催化活性。

88.Molybdenum (VI)-oxo Clusters Incorporation Activates g-C3N4 with Simultaneously Regulating Charge Transfer and Reaction Centers for Boosting Photocatalytic Performance.

鉬 (VI)-氧簇的摻入可激活 g-C3N4，同時調節(jié)電荷轉移和反應中心，從而提高光催化性能。

89.Strongly Coupled Interfacial Engineering Inspired by Robotic Arms Enable High-Performance Sodium-Ion Capacitors.

受機械臂啟發(fā)的強耦合界面工程可實現高性能鈉離子電容器。

90.Oxygen Vacancy-Rich La0.5Sr1.5Ni0.9Cu0.1O4–δ as a High-Performance Bifunctional Catalyst for Symmetric Ammonia Electrolyzer.

富氧空位 La0.5Sr1.5Ni0.9Cu0.1O4–δ 作為對稱氨電解槽的高性能雙功能催化劑。

91.NIR-II Photo-Amplified Sonodynamic Therapy Using Sodium Molybdenum Bronze Nanoplatform against Subcutaneous Staphylococcus Aureus Infection.

使用鈉鉬青銅納米平臺的 NIR-II 光放大聲動力療法對抗皮下金黃色葡萄球菌感染。

92.Fluorinated Interfaces for Efficient and Stable Low-Temperature Carbon-Based CsPbI2Br Perovskite Solar Cells.

用于高效穩(wěn)定的低溫碳基 CsPbI2Br 鈣鈦礦太陽能電池的氟化界面。

93.Properties of Dual Emissive Dendrimers Based on ThermallyActivated Delayed Fluorescence Dendrons and a Phosphorescent Ir(ppy)3 Core.

基于熱激活延遲熒光樹枝和磷光 Ir(ppy)3 核的雙發(fā)射樹枝狀聚合物的特性。

94.Thermally Induced Domain Reconfiguration in Ferroelectric Alkaline Niobate.

鐵電堿性鈮酸鹽中的熱致磁疇重構。

95.Bipolar Junction Transistor Exhibiting Excellent Output Characteristics with a Prompt Response against the Selective Protein.

雙極結型晶體管表現出出色的輸出特性，對選擇性蛋白質具有快速響應。

96.Disinfector-Assisted Low Temperature Reduced Graphene Oxide-Protein Surgical Dressing for the Postoperative Photothermal Treatment of Melanoma.

消毒劑輔助低溫還原氧化石墨烯-蛋白質手術敷料用于黑色素瘤術后光熱治療。

97.Superior Electrocatalyst for All-pH Hydrogen Evolution Reaction: Heterogeneous Rh/N and S Co-Doped Carbon Yolk–Shell Nanospheres.

適用于全 pH 析氫反應的優(yōu)質電催化劑：異質 Rh/N 和 S 共摻雜碳蛋黃殼納米球。

98.Ionic Liquid Stabilized Perovskite Solar Modules with Power Conversion Efficiency Exceeding 20%.

離子液體穩(wěn)定鈣鈦礦太陽能電池組件，功率轉換效率超過20%。

99.Dual Redox Active Sites N-C@Ni2P/NiSe2 Heterostructure Supercapacitor Integrated with Triboelectric Nanogenerator toward Efficient Energy Harvesting and Storage.

雙氧化還原活性位點 NC@Ni2P/NiSe2 異質結構超級電容器與摩擦納米發(fā)電機集成，實現高效能量收集和存儲。

100.Large-Scale Synthesis and Applications of Hafnium–Tantalum Carbides.

鉿鉭碳化物的大規(guī)模合成和應用。

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