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【標題速讀】【AdFM】【2022年】【1月】

2023-08-04 11:03 作者:Rt_Cola 0人讀過 | 我要投稿

聲明：本專欄主要對生命科學領(lǐng)域的一些期刊文章標題進行翻譯，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.Vascularized Tissue Constructs

In article number 2105475, Hong Nam Kim, Nathaniel S. Hwang, Noo Li Jeon, and co-workers report a scalable method for engineering vascularized tissue constructs inspired by the vasculogenesis-induction method and its application in ischemic tissue regeneration.

血管化組織構(gòu)建體

在文章編號 2105475 中，Hong Nam Kim、Nathaniel S. Hwang、Noo Li Jeon 及其同事報告了一種可擴展的血管化組織構(gòu)建體工程方法，其靈感來自血管生成誘導方法及其在缺血組織再生中的應用。

2.2D Growth Mechanisms

In article number 2106450, Dnyaneshwar S. Gavhane, Marijn A. van Huis, and Atul D. Sontakke visualize the growth of 2D WS2 in real time and at atomic resolution via in situ transmission electron microscopy. Growth of either vertical or horizontal layers dependent on precursor thickness is observed. Covering substrates beforehand with platinum or gold enhances the growth with elongated vertical layers and horizontal twisted bilayers of WS2.

生長機制

在文章編號 2106450 中，Dnyaneshwar S. Gavhane、Marijn A. van Huis 和 Atul D. Sontakke 通過原位透射電子顯微鏡以原子分辨率實時可視化 2D WS2 的生長。觀察到垂直或水平層的生長取決于前體厚度。預先用鉑或金覆蓋基底可增強 WS2 的細長垂直層和水平扭曲雙層的生長。

3.Block Copolymer Blends

In article number 2103697, Cheolmin Park and co-workers develop a palette of block copolymer photonic crystal inks, enabling convenient modulation of the structural color in the full visible range via solution blending of two lamellar-forming block copolymers. The binary blend photonic crystals are applicable to various solution processes and offer efficient reflection-mode pattern encryption suitable for emerging vision encryption technology requiring ultra-thin, mechanically flexible, and thus skin-patchable performance.

嵌段共聚物共混物

在文章編號 2103697 中，Cheolmin Park 及其同事開發(fā)了一種嵌段共聚物光子晶體墨水調(diào)色板，通過兩種層狀形成嵌段共聚物的溶液共混，可以在整個可見光范圍內(nèi)方便地調(diào)節(jié)結(jié)構(gòu)顏色。二元混合光子晶體適用于各種溶液工藝，并提供高效的反射模式圖案加密，適合需要超薄、機械柔性以及可皮膚修補性能的新興視覺加密技術(shù)。

4.Eco-Friendly Electrospinning

In article number 2106859, Richard Hoogenboom, Karen De Clerck, and co-workers show that functionalization and electrospinning of 2-ethyl-2-oxazoline and 2-n-butyl-2-oxazoline statistical copolymers with alizarin yellow R (AYR) analogues leads to eco-friendly designed halochromic nanofibrous sensors of which responsivity, stability, sensitivity, and pH-response can be tuned by varying support copolymer and AYR-modified polymer chain length, resulting in user-friendly reusable sensors for sub-ppm detection of biogenic amines applicable in breath analysis or food packaging.

環(huán)保靜電紡絲

在文章編號 2106859 中，Richard Hoogenboom、Karen De Clerck 及其同事表明，2-乙基-2-惡唑啉和 2-正丁基-2-惡唑啉統(tǒng)計共聚物與茜素黃 R 的官能化和靜電紡絲（ AYR) 類似物可帶來環(huán)保設(shè)計的光致變色納米纖維傳感器，其響應度、穩(wěn)定性、靈敏度和 pH 響應可通過改變支撐共聚物和 AYR 改性聚合物鏈長度進行調(diào)節(jié)，從而形成用戶友好的可重復使用的亞 ppm 傳感器適用于呼吸分析或食品包裝的生物胺檢測。

5.Metal Micropatterning

In article number 2109265, Xiangming Li and co-workers present controllable and safe spark discharges generated by a triboelectric nanogenerator under atmosphere and offer a simple, reliable, and versatile metal micropatterning method for flexible electronics.

金屬微圖案化

在文章編號 2109265 中，Xiangming Li 及其同事展示了摩擦納米發(fā)電機在大氣下產(chǎn)生的可控且安全的火花放電，并為柔性電子產(chǎn)品提供了一種簡單、可靠且通用的金屬微圖案化方法。

6.Building a Library for Catalysts Research Using High-Throughput Approaches.

使用高通量方法構(gòu)建催化劑研究庫。

7.ROS-Catalytic Transition-Metal-Based Enzymatic Nanoagents for Tumor and Bacterial Eradication.

用于根除腫瘤和細菌的活性氧催化過渡金屬酶納米制劑。

8.Shining Light on Porous Liquids: From Fundamentals to Syntheses, Applications and Future Challenges.

照亮多孔液體：從基礎(chǔ)到合成、應用和未來挑戰(zhàn)。

9.Facet Junction Engineering for Photocatalysis: A Comprehensive Review on Elementary Knowledge, Facet-Synergistic Mechanisms, Functional Modifications, and Future Perspectives.

光催化小面連接工程：基礎(chǔ)知識、小面協(xié)同機制、功能修飾和未來展望的綜合綜述。

10.Polymeric Toroidal Self-Assemblies: Diverse Formation Mechanisms and Functions.

聚合物環(huán)形自組裝體：多種形成機制和功能。

11.Innovative Materials Science via Machine Learning.

通過機器學習創(chuàng)新材料科學。

12.Advanced Electron Energy Loss Spectroscopy for Battery Studies.

用于電池研究的先進電子能量損失光譜。

13.3D Microphysiological System-Inspired Scalable Vascularized Tissue Constructs for Regenerative Medicine.

3D 微生理系統(tǒng)啟發(fā)的可擴展血管化組織構(gòu)建用于再生醫(yī)學。

14.Selective Vertical and Horizontal Growth of 2D WS2 Revealed by In Situ Thermolysis using Transmission Electron Microscopy.

使用透射電子顯微鏡通過原位熱解揭示二維 WS2 的選擇性垂直和水平生長。

15.Photonic Crystal Palette of Binary Block Copolymer Blends for Full Visible Structural Color Encryption.

用于完全可見結(jié)構(gòu)顏色加密的二元嵌段共聚物混合物的光子晶體調(diào)色板。

16.Eco-Friendly Colorimetric Nanofiber Design: Halochromic Sensors with Tunable pH-Sensing Regime Based on 2-Ethyl-2-Oxazoline and 2-n-Butyl-2-Oxazoline Statistical Copolymers Functionalized with Alizarin Yellow R.

環(huán)保比色納米纖維設(shè)計：基于茜素黃 R 功能化的 2-乙基-2-惡唑啉和 2-正丁基-2-惡唑啉統(tǒng)計共聚物，具有可調(diào) pH 傳感機制的鹵色傳感器。

17.Metal Micropatterning by Triboelectric Spark Discharge.

通過摩擦電火花放電進行金屬微圖案化。

18.Excellent Specific Mechanical and Electrical Properties of Anisotropic Freeze-Cast Native and Carbonized Bacterial Cellulose-Alginate Foams.

各向異性冷凍鑄造天然和碳化細菌纖維素-海藻酸鹽泡沫具有優(yōu)異的機械和電氣性能。

19.Compensated Ferrimagnet Based Artificial Synapse and Neuron for Ultrafast Neuromorphic Computing.

基于補償亞鐵磁體的人工突觸和神經(jīng)元，用于超快神經(jīng)形態(tài)計算。

20.Dual-Modal Optoelectronic Synaptic Devices with Versatile Synaptic Plasticity.

具有多功能突觸可塑性的雙模態(tài)光電突觸器件。

21.A New Sodium Calcium Cyclotetravanadate Framework: “Zero-Strain” during Large-Capacity Lithium Intercalation.

一種新的環(huán)四釩酸鈉鈣框架：大容量插鋰過程中的“零應變”。

22.Fluorinated Black Phosphorene Nanosheets with Robust Ambient Stability for Efficient and Stable Perovskite Solar Cells.

具有強大環(huán)境穩(wěn)定性的氟化黑色磷烯納米片，可用于高效穩(wěn)定的鈣鈦礦太陽能電池。

23.Architected Multimaterial Lattices with Thermally Programmable Mechanical Response.

具有熱可編程機械響應的多材料晶格架構(gòu)。

24.Light-Driven Micromotors to Dissociate Protein Aggregates That Cause Neurodegenerative Diseases.

光驅(qū)動微電機可解離導致神經(jīng)退行性疾病的蛋白質(zhì)聚集體。

25.Self-Polymerization of Monomer and Induced Interactions with Perovskite for Highly Performed and Stable Perovskite Solar Cells.

單體自聚合以及與鈣鈦礦的誘導相互作用，用于高性能和穩(wěn)定的鈣鈦礦太陽能電池。

26.Giant Red-Shifted Emission in (Sr,Ba)Y2O4:Eu2+ Phosphor Toward Broadband Near-Infrared Luminescence.

(Sr,Ba)Y2O4:Eu2+ 熒光粉中向?qū)拵Ыt外發(fā)光的巨大紅移發(fā)射。

27.A Stiff yet Rapidly Self-Healable Elastomer in Harsh Aqueous Environments.

一種在惡劣的水環(huán)境中堅硬但可快速自修復的彈性體。

28.Aramid Nanofiber Membranes for Energy Harvesting from Proton Gradients.

用于從質(zhì)子梯度中收集能量的芳綸納米纖維膜。

29.In Situ Management of Ions Migration to Control Hysteresis Effect for Planar Heterojunction Perovskite Solar Cells.

離子遷移的原位管理以控制平面異質(zhì)結(jié)鈣鈦礦太陽能電池的磁滯效應。

30.Mass Production of 2D Manifolds of Graphene Oxide by Shear Flow.

通過剪切流大規(guī)模生產(chǎn)氧化石墨烯二維流形。

31.Sn Alloying to Inhibit Hydrogen Evolution of Zn Metal Anode in Rechargeable Aqueous Batteries.

錫合金化可抑制可充電水系電池中鋅金屬陽極的析氫。

32.TRAIL Coated Genetically Engineered Immunotherapeutic Nano-Ghosts Vesicles Target Human Melanoma-Avoiding the Need for High Effective Therapeutic Concentration of TRAIL.

TRAIL 涂層基因工程免疫治療納米鬼囊泡靶向人類黑色素瘤 - 避免了對 TRAIL 高效治療濃度的需要。

33.Synergistic Effect of Multi-Walled Carbon Nanotubes and Ladder-Type Conjugated Polymers on the Performance of N-Type Organic Electrochemical Transistors.

多壁碳納米管和梯型共軛聚合物對N型有機電化學晶體管性能的協(xié)同效應。

34.A Low Strain A-Site Deficient Perovskite Lithium Lanthanum Niobate Anode for Superior Li+ Storage.

一種低應變 A 位缺陷鈣鈦礦鈮酸鋰鋰陽極，可實現(xiàn)卓越的 Li+ 存儲。

35.Low-Energy Oxygen Plasma Injection of 2D Bi2Se3 Realizes Highly Controllable Resistive Random Access Memory.

低能氧等離子體注入二維Bi2Se3實現(xiàn)高度可控阻變存儲器。

36.Ionic-Liquid Induced Morphology Tuning of PEDOT:PSS for High-Performance Organic Electrochemical Transistors.

用于高性能有機電化學晶體管的 PEDOT:PSS 離子液體誘導形貌調(diào)諧。

37.Multifunctional and Physically Transient Supercapacitors, Triboelectric Nanogenerators, and Capacitive Sensors.

多功能和物理瞬態(tài)超級電容器、摩擦納米發(fā)電機和電容傳感器。

38.Water/Sulfolane Hybrid Electrolyte Achieves Ultralow-Temperature Operation for High-Voltage Aqueous Lithium-Ion Batteries.

水/環(huán)丁砜混合電解質(zhì)實現(xiàn)高壓水系鋰離子電池的超低溫運行。

39.Learning from Nature: Constructing a Smart Bionic Structure for High-Performance Glucose Sensing in Human Serums.

向自然學習：構(gòu)建智能仿生結(jié)構(gòu)以實現(xiàn)人體血清中的高性能葡萄糖傳感。

40.A Regularity-Based Fullerene Interfacial Layer for Efficient and Stable Perovskite Solar Cells via Blade-Coating.

基于規(guī)則的富勒烯界面層，通過刮刀涂布實現(xiàn)高效穩(wěn)定的鈣鈦礦太陽能電池。

41.High-Purity Monochiral Carbon Nanotubes with a 1.2 nm Diameter for High-Performance Field-Effect Transistors.

用于高性能場效應晶體管的直徑為 1.2 nm 的高純度單手性碳納米管。

42.Visibly Clear Radiative Cooling Metamaterials for Enhanced Thermal Management in Solar Cells and Windows.

明顯透明的輻射冷卻超材料可增強太陽能電池和窗戶的熱管理。

43.From Glutinous-Rice-Inspired Adhesive Organohydrogels to Flexible Electronic Devices Toward Wearable Sensing, Power Supply, and Energy Storage.

從糯米啟發(fā)的粘性有機水凝膠到面向可穿戴傳感、電源和能量存儲的柔性電子設(shè)備。

44.Rational Design of All Resistive Multifunctional Sensors with Stimulus Discriminability.

具有刺激辨別能力的全電阻式多功能傳感器的合理設(shè)計。

45.Lossless, Passive Transportation of Low Surface Tension Liquids Induced by Patterned Omniphobic Liquidlike Polymer Brushes.

由圖案化全疏液狀聚合物刷引起的低表面張力液體的無損、被動傳輸。

46.Lithiothermic-Synchronous Construction of Mo-Li2S-Graphene Nanocomposites for High-Energy Li2S//Si?C Battery.

用于高能Li2S//Si?C電池的Mo-Li2S-石墨烯納米復合材料的鋰熱同步構(gòu)建。

47.Combined Methylglyoxal Scavenger and Collagen Hydrogel Therapy Prevents Adverse Remodeling and Improves Cardiac Function Post-Myocardial Infarction.

甲基乙二醛清除劑和膠原水凝膠聯(lián)合療法可預防不良重塑并改善心肌梗塞后的心臟功能。

48.Unraveling the Charge Storage and Activity-Enhancing Mechanisms of Zn-Doping Perovskite Fluorides and Engineering the Electrodes and Electrolytes for Wide-Temperature Aqueous Supercabatteries.

揭示鋅摻雜鈣鈦礦氟化物的電荷存儲和活性增強機制以及設(shè)計用于寬溫水性超級電池的電極和電解質(zhì)。

49.Rubik-Cube-Based Self-Powered Sensors and System: An Approach toward Smart Toys.

基于魔方的自供電傳感器和系統(tǒng)：智能玩具的一種方法。

50.Inkjet Printed Disposable High-Rate On-Paper Microsupercapacitors.

噴墨印刷一次性高倍率紙上微型超級電容器。

51.Charge Transfer Effects

In article number 2106438, Jinhan Cho and co-workers investigate the charge transfer effects of organic ligands depending on their size/functionality and interfacial interaction in the oxide nanoparticle-based pseudocapacitor electrodes. The chemical reducing ligands with extremely small molecular size notably decrease the interparticle distance and simultaneously increase the number of oxygen vacancies in pseudocapacitive/conductive oxide nanoparticles, which can contribute to the formation of an efficient charge transfer pathway.

電荷轉(zhuǎn)移效應

在文章編號 2106438 中，Jinhan Cho 和同事研究了有機配體的電荷轉(zhuǎn)移效應，具體取決于有機配體的尺寸/功能以及基于氧化物納米粒子的贗電容器電極中的界面相互作用。分子尺寸極小的化學還原配體顯著減小了顆粒間距離，同時增加了贗電容/導電氧化物納米顆粒中氧空位的數(shù)量，這有助于形成有效的電荷轉(zhuǎn)移路徑。

52.Fiber-Shaped Electrodes

In article number 2105029, Bin Wang and co-workers demonstrate highly rechargeable K-CO2 batteries are with bamboo-like N-doped carbon nanotube cathodes and pre-protected K anodes decorated with an artificial solid electrolyte interphase film. The synergistic effect of efficient cathodes and durable anodes guarantees K-CO2 batteries long cycle-life, high specific capacity, and good rate capability.

纖維狀電極

在文章編號 2105029 中，Bin Wang 及其同事展示了高度可充電的 K-CO2 電池，該電池具有竹子狀 N 摻雜碳納米管陰極和用人造固體電解質(zhì)中間膜裝飾的預保護 K 陽極。高效正極和耐用負極的協(xié)同作用保證了K-CO2電池的長循環(huán)壽命、高比容量和良好的倍率性能。

53.Dielectric Breakdown

Transistors, capacitors, and resistive random-access memory (RRAM) elements have an oxide film at their heart. In article number 2102313, Brian C. Regan and co-workers apply scanning transmission electron microscopy (STEM) electron beam-induced current (EBIC) imaging to RRAM elements cycling in situ. STEM EBIC imaging clearly visualizes otherwise-invisible dielectric breakdown processes occurring in the nominally insulating oxide film.

電介質(zhì)擊穿

晶體管、電容器和電阻式隨機存取存儲器 (RRAM) 元件的核心都有一層氧化膜。在第 2102313 號文章中，Brian C. Regan 及其同事將掃描透射電子顯微鏡 (STEM) 電子束感應電流 (EBIC) 成像應用于原位循環(huán)的 RRAM 元件。 STEM EBIC 成像清晰地顯示了名義絕緣氧化膜中發(fā)生的原本不可見的介電擊穿過程。

54.Temperature-Responsive Microgels

In article number 2107946, Svetlana Santer and co-workers demonstrate that at any fixed temperature in the range between 32 °C and 80 °C, one can reversibly change the radius of the microgel up to 3 times (7 μm to 21 μm) by irradiating either with UV (shrunken state) or green light (swollen state).

溫度響應型微凝膠

在文章編號 2107946 中，Svetlana Santer 及其同事證明，在 32 °C 至 80 °C 范圍內(nèi)的任何固定溫度下，人們可以可逆地將微凝膠的半徑改變達 3 倍（7 μm 至21μm）通過用紫外線（收縮狀態(tài)）或綠光（膨脹狀態(tài)）照射。

55.Optimized Charge Transport

In article number 2107976, Jasper J. Michels, Wojciech Pisula, Tomasz Marszalek, and co-workers identify an optimal processing window for zone-casting of a molecular semiconductor for organic fieldeffect transistors. Computational modelling of the fluid dynamics and the crystallization explains the occurrence of three morphological subregimes: i) isotropic domain-like, ii) unidirectional crystal stripes and iii) corrugated dendritic. Control of the semiconductor film morphology allows to optimize the in-plane charge carrier transport.

優(yōu)化的電荷傳輸

在文章編號 2107976 中，Jasper J. Michels、Wojciech Pisula、Tomasz Marszalek 及其同事確定了有機場效應晶體管分子半導體區(qū)域鑄造的最佳處理窗口。流體動力學和結(jié)晶的計算模型解釋了三種形態(tài)子區(qū)域的出現(xiàn)：i) 各向同性域狀，ii) 單向晶體條紋和 iii) 波紋樹枝狀?？刂瓢雽w薄膜形態(tài)可以優(yōu)化面內(nèi)載流子傳輸。

56.Synergistic Electrocatalysts for Alkaline Hydrogen Oxidation and Evolution Reactions.

用于堿性氫氧化和演化反應的協(xié)同電催化劑。

57.A Review of Heteroatom Doped Materials for Advanced Lithium–Sulfur Batteries.

先進鋰硫電池雜原子摻雜材料的綜述。

58.Targeted Therapeutics Delivery by Exploiting Biophysical Properties of Senescent Cells.

利用衰老細胞的生物物理特性進行靶向治療。

59.Elemental 2D Materials: Solution-Processed Synthesis and Applications in Electrochemical Ammonia Production.

元素二維材料：溶液處理合成及其在電化學氨生產(chǎn)中的應用。

60.Modulating Protein Corona and Materials–Cell Interactions with Temperature-Responsive Materials.

調(diào)節(jié)蛋白質(zhì)電暈和材料-細胞與溫度響應材料的相互作用。

61.Charge-Transfer Effects of Organic Ligands on Energy Storage Performance of Oxide Nanoparticle-Based Electrodes.

有機配體的電荷轉(zhuǎn)移效應對氧化物納米粒子基電極儲能性能的影響。

62.Artificial Solid-Electrolyte Interphase and Bamboo-like N-doped Carbon Nanotube Enabled Highly Rechargeable K-CO2 Batteries.

人造固體電解質(zhì)中間相和類似竹子的氮摻雜碳納米管可實現(xiàn)高度可充電的 K-CO2 電池。

63.Imaging Dielectric Breakdown in Valence Change Memory.

價態(tài)變化記憶中的介電擊穿成像。

64.Tuning the Volume Phase Transition Temperature of Microgels by Light.

通過光調(diào)節(jié)微凝膠的體積相變溫度。

65.Optimized Charge Transport in Molecular Semiconductors by Control of Fluid Dynamics and Crystallization in Meniscus-Guided Coating.

通過控制彎液面引導涂層中的流體動力學和結(jié)晶來優(yōu)化分子半導體中的電荷傳輸。

66.Integration of Morphology and Electronic Structure Modulation on Atomic Iron-Nitrogen-Carbon Catalysts for Highly Efficient Oxygen Reduction.

原子鐵-氮-碳催化劑的形態(tài)和電子結(jié)構(gòu)調(diào)制的集成，用于高效氧還原。

67.Interfacial Engineering of Wide-Bandgap Perovskites for Efficient Perovskite/CZTSSe Tandem Solar Cells.

用于高效鈣鈦礦/CZTSSe 串聯(lián)太陽能電池的寬帶隙鈣鈦礦界面工程。

68.Custom Design of Protein Particles as Multifunctional Biomaterials.

作為多功能生物材料的蛋白質(zhì)顆粒的定制設(shè)計。

69.Endowing AIE with Extraordinary Potential: A New Au(I)-Containing AIEgen for Bimodal Bioimaging-Guided Multimodal Synergistic Cancer Therapy.

賦予 AIE 非凡的潛力：一種新的含 Au(I) AIEgen，用于雙模式生物成像引導的多模式協(xié)同癌癥治療。

70.Bioresponsive, Electroactive, and Inkjet-Printable Graphene-Based Inks.

生物響應、電活性和可噴墨打印的石墨烯油墨。

71.Atomic-Scale Characterization of Negative Differential Resistance in Ferroelectric Bi2WO6.

鐵電 Bi2WO6 負微分電阻的原子尺度表征。

72.A Cation-Methylene-Phenyl Sequence Encodes Programmable Poly(Ionic Liquid) Coacervation and Robust Underwater Adhesion.

陽離子-亞甲基-苯基序列編碼可編程聚（離子液體）凝聚和強大的水下粘附力。

73.A Self-Healable Sulfide/Polymer Composite Electrolyte for Long-Life, Low-Lithium-Excess Lithium-Metal Batteries.

用于長壽命、低鋰過量鋰金屬電池的自修復硫化物/聚合物復合電解質(zhì)。

74.Synthesis of Amphiphilic Silica with High Exposure of Surface Groups and Its Utilization in Efficient Removal of Organic Dyes from Aqueous Solution.

具有高表面基團暴露度的兩親性二氧化硅的合成及其在高效去除水溶液中有機染料中的應用。

75.Disintegrable n-Type Electroactive Terpolymers for High-Performance, Transient Organic Electronics.

用于高性能瞬態(tài)有機電子器件的可分解 n 型電活性三元聚合物。

76.Solvent-Cast-Assisted Printing of Biomimetic Morphing Hydrogel Structures with Solvent Evaporation-Induced Swelling Mismatch.

具有溶劑蒸發(fā)引起的膨脹失配的仿生變形水凝膠結(jié)構(gòu)的溶劑澆鑄輔助打印。

77.High Current Density and Long Cycle Life Enabled by Sulfide Solid Electrolyte and Dendrite-Free Liquid Lithium Anode.

硫化物固體電解質(zhì)和無枝晶液態(tài)鋰陽極實現(xiàn)高電流密度和長循環(huán)壽命。

78.Intrinsic Nature of Negative Capacitance in Multidomain Hf0.5Zr0.5O2-Based Ferroelectric/Dielectric Heterostructures.

多域 Hf0.5Zr0.5O2 鐵電/電介質(zhì)異質(zhì)結(jié)構(gòu)中負電容的本質(zhì)。

79.A Friendly Soluble Protic Additive Enabling High Discharge Capability and Stabilizing Li Metal Anodes in Li–O2 Batteries.

一種友好的可溶性質(zhì)子添加劑，可實現(xiàn)高放電能力并穩(wěn)定鋰氧氣電池中的鋰金屬陽極。

80.Deciphering the Electrochemical Behaviors of the Electrode-Electrolyte Coupling toward Advanced Electrochemical Energy Storage Device.

解讀先進電化學儲能裝置電極-電解質(zhì)耦合的電化學行為。

81.Hepcidin-Based Nanocomposites for Enhanced Cancer Immunotherapy by Modulating Iron Export-Mediated N6-Methyladenosine RNA Transcript.

基于鐵調(diào)素的納米復合材料通過調(diào)節(jié)鐵輸出介導的 N6-甲基腺苷 RNA 轉(zhuǎn)錄來增強癌癥免疫治療。

82.The Evolution of Photoluminescence Properties of PEA2SnI4 Upon Oxygen Exposure: Insight into Concentration Effects.

PEA2SnI4 暴露于氧氣后的光致發(fā)光性質(zhì)的演變：深入了解濃度效應。

83.High-Performance Si Photocathode Enabled by Spatial Decoupling Multifunctional Layers for Water Splitting.

通過空間解耦多功能層實現(xiàn)水分解的高性能硅光電陰極。

84.A Flash Vacuum-Induced Reaction in Preparing High Performance Thermoelectric Cu2S.

制備高性能熱電 Cu2S 的閃蒸真空誘導反應。

85.Flexible and Robust 3D a-SiGe Radial Junction Near-Infrared Photodetectors for Rapid Sphygmic Signal Monitoring.

靈活且堅固的 3D a-SiGe 徑向結(jié)近紅外光電探測器，用于快速血壓信號監(jiān)測。

86.Light-Soaking Induced Optical Tuning in Rare Earth-Doped All-Inorganic Perovskite.

稀土摻雜全無機鈣鈦礦的光浸泡誘導光學調(diào)諧。

87.Intergrowth of Graphite-Like Crystals in Hard Carbon for Highly Reversible Na-Ion Storage.

硬碳中類石墨晶體的共生，用于高度可逆的鈉離子存儲。

88.MEndR: An In Vitro Functional Assay to Predict In Vivo Muscle Stem Cell-Mediated Repair.

MEndR：預測體內(nèi)肌肉干細胞介導的修復的體外功能測定。

89.GeTe Nanosheets as Theranostic Agents for Multimodal Imaging and Therapy of Inflammatory Bowel Disease.

GeTe 納米片作為多模態(tài)成像和炎癥性腸病治療的治療診斷劑。

90.Engineering of Ferroic Orders in Thin Films by Anionic Substitution.

通過陰離子取代對薄膜中的鐵有序進行工程化。

91.In Situ Chemical Patterning Technique.

原位化學圖案化技術(shù)。

92.Crown Ether-Functionalized Complex Emulsions as an Artificial Adaptive Material Platform.

冠醚功能化復合乳液作為人工自適應材料平臺。

93.Organophosphorus Hybrid Solid Electrolyte Interphase Layer Based on LixPO4 Enables Uniform Lithium Deposition for High-Performance Lithium Metal Batteries.

基于 LixPO4 的有機磷雜化固體電解質(zhì)中間層可實現(xiàn)高性能鋰金屬電池的均勻鋰沉積。

94.Understanding Effects of Ion Diffusion on Charge Carrier Mobility of Electrolyte-Gated Organic Transistor Using Ionic Liquid-Embedded Poly(3-hexylthiophene).

了解離子擴散對使用離子液體嵌入的聚（3-己基噻吩）的電解質(zhì)門控有機晶體管的電荷載流子遷移率的影響。