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【標(biāo)題速讀】【AdvS】【2022年】【5月】

2023-08-22 10:38 作者:Rt_Cola 0人讀過 | 我要投稿

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。

1.Slippery Water Infused Membrane with Grooved Nanotrichomes. Sarracenia leucophylla, a carnivorous pitcher plant, has short trichomes covering the inner wall. When wet by water, the trichomes help to form a water-based lubrication layer, which becomes slippery for the prey insects to slip into a pitfall trap. In article number 2103950, Young A Lee, Seok Chung, Myoung-Woon Moon, and co-workers, inspired by the water lubrication, develop a slippery, water-infused membrane with grooved nanotrichomes for lubricating-induced oil repellency and self-cleaning in air or underwater.

具有凹槽納米毛狀體的光滑注水膜。白葉瓶子草（Sarracenia leucophylla）是一種肉食性豬籠草，內(nèi)壁上覆蓋著短毛。當(dāng)被水弄濕時(shí)，毛狀體有助于形成水基潤滑層，該潤滑層變得光滑，使獵物昆蟲滑入陷阱。在第 2103950 號(hào)文章中，Young A Lee、Seok Chung、Myoung-Woon Moon 及其同事受到水潤滑的啟發(fā)，開發(fā)了一種帶有凹槽納米毛狀體的光滑注水膜，用于空氣或水下潤滑誘導(dǎo)的防油性和自清潔性。

2.Semitransparent Ultrathin CIGSe Solar Cells. In article number 2105436, Joo Hyung Park and co-workers develop a bifacial and semitransparent ultrathin (STUT) Cu(In1-x,Gax)Se2 (CIGSe) solar cell with a wide bandgap Zn(O,S) buffer, and establish the concept and method to compare power generation ability by defining bifacial compatible efficiency (BCE) to reflect the albedo effect advantage in bifacial application, comparing with monofacial power conversion efficiency (PCE).

半透明超薄 CIGSe 太陽能電池。在文章編號(hào) 2105436 中，Joo Hyung Park 及其同事開發(fā)了一種具有寬帶隙 Zn(O,S) 緩沖層的雙面半透明超薄 (STUT) Cu(In1-x,Gax)Se2 (CIGSe) 太陽能電池，并建立了通過定義雙面兼容效率（BCE）來比較發(fā)電能力的概念和方法，以反映雙面應(yīng)用中反照率效應(yīng)的優(yōu)勢，與單面發(fā)電轉(zhuǎn)換效率（PCE）進(jìn)行比較。

3.Nucleus Pulposus Cell Atlas. Long time debate focusing on whether nucleus pulposus cells (NPs) in intervertebral disc (IVD) harbor progenitor cells essential for IVD homeostasis and repairment. In article number 2104888, Bo Gao, Zhuojing Luo, Weiguo Zou, and co-workers identify novel UTS2R+ NP progenitor cells not only essential for IVD repairment, but giving rise to multiple functional NP cells, which interacted with each other to maintain IVD homeostasis, just like “Taichi” exist between heaven and earth, giving birth to “Yin” and “Yang”, which further generate “Bagua” to balance everything in the universe.

髓核細(xì)胞圖譜。長期以來爭論的焦點(diǎn)是椎間盤 (IVD) 中的髓核細(xì)胞 (NP) 是否含有對(duì) IVD 穩(wěn)態(tài)和修復(fù)至關(guān)重要的祖細(xì)胞。在第 2104888 號(hào)文章中，Bo Gau、Zhuojing Luo、Weiguo Zou 及其同事鑒定了新型 UTS2R+ NP 祖細(xì)胞，不僅對(duì) IVD 修復(fù)至關(guān)重要，而且能產(chǎn)生多種功能性 NP 細(xì)胞，這些細(xì)胞相互作用以維持 IVD 穩(wěn)態(tài)。就如“太極”存在于天地之間，生出“陰”與“陽”，又生出“八卦”來平衡宇宙萬物。

4.Spintronic Multi-Level Memory Unit. In article number 2103357 by Kun Zhang, Yue Zhang, and co-workers, a spintronic multi-level memory unit (MLMU) with high on/off ratio is constructed by integrating a magnetic tunnel junction chain and a diode in parallel. This MLMU can enable high-accuracy artificial intelligence applications, such as a deep neural network accelerator for image classification. Just as described in the cover design, the MLMUs are regarded as building blocks to assemble the artificial-intelligence brain.

自旋電子多級(jí)存儲(chǔ)單元。在 Kun Zhang、Yue Zhang 及其同事的文章編號(hào) 2103357 中，通過并聯(lián)集成磁隧道結(jié)鏈和二極管構(gòu)建了具有高開/關(guān)比的自旋電子多層存儲(chǔ)單元 (MLMU)。該 MLMU 可以實(shí)現(xiàn)高精度人工智能應(yīng)用，例如用于圖像分類的深度神經(jīng)網(wǎng)絡(luò)加速器。正如封面設(shè)計(jì)中所描述的，MLMU 被視為組裝人工智能大腦的構(gòu)建塊。

5.Medical Gas Therapy. The frontispiece exhibits an artistic view of the history (≈1550s BC–2020s AD) for medical gas therapy development. In article number 2104136 by Ross D. Zafonte, Yang D. Teng, and co-workers, the cytoprotection mechanisms, data qualities, and challenges of gas agents are systematically reviewed. Whereas gas molecules protected cells in safe dosages, validating their therapeutic targets remained an urgent demand. Review and image design: Y.D. Teng. Image artwork: R. Dennison and Y.D. Teng.

醫(yī)用氣體療法。卷首插畫展示了醫(yī)用氣體療法發(fā)展歷史（約公元前 1550 年代至公元 2020 年代）的藝術(shù)視角。?Ross D. Zafonte、Yang D. Teng 及其同事在第 2104136 號(hào)文章中系統(tǒng)地回顧了氣體劑的細(xì)胞保護(hù)機(jī)制、數(shù)據(jù)質(zhì)量和挑戰(zhàn)。盡管氣體分子以安全劑量保護(hù)細(xì)胞，但驗(yàn)證其治療靶點(diǎn)仍然是迫切的需求。審稿及形象設(shè)計(jì)：YD Teng。圖片作品：R. Dennison 和 YD Teng。

6.Optimizing Piezoelectric Nanocomposites. In article number 2105550, Tiannan Yang, Zhao Kang, Long-Qing Chen, Yuanjie Su, Zijian Hong, and co-workers conduct an integrated study with high-throughput phase-field simulations and machine learning to systematically reveal the influence of morphology and spatial orientation of an oxide filler on the effective piezoelectric properties of the polymer/ferroelectric oxide nanocomposites.

優(yōu)化壓電納米復(fù)合材料。在文章編號(hào) 2105550 中，Tiannan Yang、Zhao Kang、Long-Qing Chen、Yuanjie Su、Zijian Hong 及其同事利用高通量相場模擬和機(jī)器學(xué)習(xí)進(jìn)行了綜合研究，系統(tǒng)地揭示了形態(tài)和空間的影響氧化物填料的取向?qū)酆衔?鐵電氧化物納米復(fù)合材料的有效壓電性能的影響。

7.Medical Gas Therapy for Tissue, Organ, and CNS Protection: A Systematic Review of Effects, Mechanisms, and Challenges.

用于組織、器官和中樞神經(jīng)系統(tǒng)保護(hù)的醫(yī)用氣體療法：效果、機(jī)制和挑戰(zhàn)的系統(tǒng)回顧。

8.Overcoming Vascular Barriers to Improve the Theranostic Outcomes of Nanomedicines.

克服血管障礙以改善納米藥物的治療診斷結(jié)果。

9.Stimuli-Responsive Antibacterial Materials: Molecular Structures, Design Principles, and Biomedical Applications.

刺激響應(yīng)抗菌材料：分子結(jié)構(gòu)、設(shè)計(jì)原理和生物醫(yī)學(xué)應(yīng)用。

10.Biodegradable Elastomers and Gels for Elastic Electronics.

用于彈性電子產(chǎn)品的可生物降解彈性體和凝膠。

11.Engineering the Defects and Microstructures in Ferroelectrics for Enhanced/Novel Properties: An Emerging Way to Cope with Energy Crisis and Environmental Pollution.

設(shè)計(jì)鐵電體中的缺陷和微觀結(jié)構(gòu)以增強(qiáng)/新穎性能：應(yīng)對(duì)能源危機(jī)和環(huán)境污染的新興方法。

12.The Importance of the Macroscopic Geometry in Gas-Phase Photocatalysis.

宏觀幾何形狀在氣相光催化中的重要性。

13.Slippery, Water-Infused Membrane with Grooved Nanotrichomes for Lubricating-Induced Oil Repellency.

具有凹槽納米毛狀體的光滑注水膜，具有潤滑誘導(dǎo)的防油性。

14.Practical Enhancements in Current Density and Power Generation of Bifacial Semitransparent Ultrathin CIGSe Solar Cells via Utilization of Wide Bandgap Zn-Based Buffer.

通過利用寬帶隙鋅基緩沖劑，實(shí)際增強(qiáng)雙面半透明超薄 CIGSe 太陽能電池的電流密度和發(fā)電量。

15.Discovery and Application of Postnatal Nucleus Pulposus Progenitors Essential for Intervertebral Disc Homeostasis and Degeneration.

對(duì)椎間盤穩(wěn)態(tài)和退變至關(guān)重要的出生后髓核祖細(xì)胞的發(fā)現(xiàn)和應(yīng)用。

16.High On/Off Ratio Spintronic Multi-Level Memory Unit for Deep Neural Network.

用于深度神經(jīng)網(wǎng)絡(luò)的高開/關(guān)比自旋電子多級(jí)存儲(chǔ)單元。

17.Optimizing Piezoelectric Nanocomposites by High-Throughput Phase-Field Simulation and Machine Learning.

通過高通量相場模擬和機(jī)器學(xué)習(xí)優(yōu)化壓電納米復(fù)合材料。

18.Macroscale Robust Superlubricity on Metallic NbB2.

金屬 NbB2 的宏觀魯棒超潤滑性。

19.Polydopamine Decorated Microneedles with Fe-MSC-Derived Nanovesicles Encapsulation for Wound Healing.

聚多巴胺裝飾的微針與 Fe-MSC 衍生的納米囊泡封裝用于傷口愈合。

20.Deconvolution of Light-Induced Ion Migration Phenomena by Statistical Analysis of Cathodoluminescence in Lead Halide-Based Perovskites.

通過鹵化鉛鈣鈦礦陰極發(fā)光的統(tǒng)計(jì)分析來解卷積光誘導(dǎo)離子遷移現(xiàn)象。

21.Neuroendocrine Regulation of Stress-Induced T Cell Dysfunction during Lung Cancer Immunosurveillance via the Kisspeptin/GPR54 Signaling Pathway.

通過 Kisspeptin/GPR54 信號(hào)通路對(duì)肺癌免疫監(jiān)視過程中應(yīng)激誘導(dǎo)的 T 細(xì)胞功能障礙進(jìn)行神經(jīng)內(nèi)分泌調(diào)節(jié)。

22.Using Feature-Assisted Machine Learning Algorithms to Boost Polarity in Lead-Free Multicomponent Niobate Alloys for High-Performance Ferroelectrics.

使用特征輔助機(jī)器學(xué)習(xí)算法提高高性能鐵電體無鉛多組分鈮酸鹽合金的極性。

23.Homeostasis Imbalance of YY2 and YY1 Promotes Tumor Growth by Manipulating Ferroptosis.

YY2 和 YY1 的穩(wěn)態(tài)失衡通過操縱鐵死亡促進(jìn)腫瘤生長。

24.Kill Two Birds with One Stone: A Multifunctional Dual-Targeting Protein Drug to Overcome Imatinib Resistance in Philadelphia Chromosome-Positive Leukemia.

一石二鳥：一種多功能雙靶向蛋白質(zhì)藥物，可克服費(fèi)城染色體陽性白血病的伊馬替尼耐藥性。

25.circREEP3 Drives Colorectal Cancer Progression via Activation of FKBP10 Transcription and Restriction of Antitumor Immunity.

circREEP3 通過激活 FKBP10 轉(zhuǎn)錄和限制抗腫瘤免疫來驅(qū)動(dòng)結(jié)直腸癌進(jìn)展。

26.Improving Cyclability of All-Solid-State Batteries via Stabilized Electrolyte–Electrode Interface with Additive in Poly(propylene carbonate) Based Solid Electrolyte.

通過使用聚（碳酸亞丙酯）固體電解質(zhì)中的添加劑穩(wěn)定電解質(zhì)-電極界面來提高全固態(tài)電池的循環(huán)性能。

27.Integrated Design of a Membrane-Lytic Peptide-Based Intravenous Nanotherapeutic Suppresses Triple-Negative Breast Cancer.

基于膜溶解肽的靜脈內(nèi)納米療法的集成設(shè)計(jì)可抑制三陰性乳腺癌。

28.Exosomes-Loaded Electroconductive Hydrogel Synergistically Promotes Tissue Repair after Spinal Cord Injury via Immunoregulation and Enhancement of Myelinated Axon Growth.

負(fù)載外泌體的導(dǎo)電水凝膠通過免疫調(diào)節(jié)和增強(qiáng)有髓軸突生長協(xié)同促進(jìn)脊髓損傷后的組織修復(fù)。

29.Skeletal Muscle Fibers Inspired Polymeric Actuator by Assembly of Triblock Polymers.

骨骼肌纖維通過三嵌段聚合物組裝激發(fā)聚合物致動(dòng)器。

30.Stochastic Binding Dynamics of a Photoswitchable Single Supramolecular Complex.

光可切換單超分子復(fù)合物的隨機(jī)結(jié)合動(dòng)力學(xué)。

31.Moiré-Driven Topological Transitions and Extreme Anisotropy in Elastic Metasurfaces.

莫爾驅(qū)動(dòng)的拓?fù)滢D(zhuǎn)變和彈性超表面中的極端各向異性。

32.Vesicle Induced Receptor Sequestration: Mechanisms behind Extracellular Vesicle-Based Protein Signaling.

囊泡誘導(dǎo)的受體隔離：基于細(xì)胞外囊泡的蛋白質(zhì)信號(hào)轉(zhuǎn)導(dǎo)背后的機(jī)制。

33.Size-Controllable Nickel Sulfide Nanoparticles Embedded in Carbon Nanofibers as High-Rate Conversion Cathodes for Hybrid Mg-Based Battery.

嵌入碳納米纖維中的尺寸可控的硫化鎳納米顆粒作為混合鎂基電池的高倍率轉(zhuǎn)換陰極。

34.All-in-One Process for Color Tuning and Patterning of Perovskite Quantum Dot Light-Emitting Diodes.

鈣鈦礦量子點(diǎn)發(fā)光二極管顏色調(diào)節(jié)和圖案化的一體化工藝。

35.In Situ Monitored (N, O)-Doping of Flexible Vertical Graphene Films with High-Flux Plasma Enhanced Chemical Vapor Deposition for Remarkable Metal-Free Redox Catalysis Essential to Alkaline Zinc–Air Batteries.

利用高通量等離子體增強(qiáng)化學(xué)氣相沉積對(duì)柔性垂直石墨烯薄膜進(jìn)行原位監(jiān)測 (N, O) 摻雜，以實(shí)現(xiàn)堿性鋅空氣電池所必需的卓越的無金屬氧化還原催化作用。

36.Functionalized 12 μm Polyethylene Separator to Realize Dendrite-Free Lithium Deposition toward Highly Stable Lithium-Metal Batteries.

功能化 12 μm 聚乙烯隔膜可實(shí)現(xiàn)無枝晶鋰沉積，從而獲得高度穩(wěn)定的鋰金屬電池。

37.CD146 Associates with Gp130 to Control a Macrophage Pro-inflammatory Program That Regulates the Metabolic Response to Obesity.

CD146 與 Gp130 聯(lián)合控制巨噬細(xì)胞促炎程序，調(diào)節(jié)肥胖的代謝反應(yīng)。

38.In Situ Growth Mechanism for High-Quality Hybrid Perovskite Single-Crystal Thin Films with High Area to Thickness Ratio: Looking for the Sweet Spot.

高面積厚度比的高質(zhì)量雜化鈣鈦礦單晶薄膜的原位生長機(jī)制：尋找最佳點(diǎn)。

39.Amyloid-Like Protein Aggregation Toward Pesticide Reduction.

類淀粉樣蛋白聚集可減少農(nóng)藥殘留。

40.High-Mobility Fungus-Triggered Biodegradable Ultraflexible Organic Transistors.

高遷移率真菌觸發(fā)的可生物降解超柔性有機(jī)晶體管。

41.Immunotherapy of Malignant Glioma by Noninvasive Administration of TLR9 Agonist CpG Nano-Immunoadjuvant.

TLR9 激動(dòng)劑 CpG 納米免疫佐劑的無創(chuàng)給藥對(duì)惡性膠質(zhì)瘤進(jìn)行免疫治療。

42.Cross-Wavelength Hierarchical Metamaterials Enabled for Trans-Scale Molecules Detection Simultaneously.

跨波長分層超材料可同時(shí)進(jìn)行跨尺度分子檢測。

43.A Universal Polyiodide Regulation Using Quaternization Engineering toward High Value-Added and Ultra-Stable Zinc-Iodine Batteries.

利用季銨化工程對(duì)高附加值和超穩(wěn)定鋅碘電池進(jìn)行通用聚碘調(diào)節(jié)。

44.Harnessing Friction in Intertwined Structures for High-Capacity Reusable Energy-Absorbing Architected Materials.

利用交織結(jié)構(gòu)中的摩擦來獲得高容量可重復(fù)使用的吸能建筑材料。

45.Self-Organization of Tissue Growth by Interfacial Mechanical Interactions in Multilayered Systems.

多層系統(tǒng)中界面機(jī)械相互作用的組織生長自組織。

46.Ir Single Atom Catalyst Loaded on Amorphous Carbon Materials with High HER Activity.

具有高 HER 活性的非晶碳材料上負(fù)載的 Ir 單原子催化劑。

47.Ferroelectric Engineered Electrode-Composite Polymer Electrolyte Interfaces for All-Solid-State Sodium Metal Battery.

用于全固態(tài)鈉金屬電池的鐵電工程電極復(fù)合聚合物電解質(zhì)界面。

48.Degenerated Hole Doping and Ultra-Low Lattice Thermal Conductivity in Polycrystalline SnSe by Nonequilibrium Isovalent Te Substitution.

非平衡等價(jià) Te 取代多晶 SnSe 中的簡并空穴摻雜和超低晶格熱導(dǎo)率。

49.Pharmacological Perturbation of Mechanical Contractility Enables Robust Transdifferentiation of Human Fibroblasts into Neurons.

機(jī)械收縮性的藥理學(xué)擾動(dòng)使人類成纖維細(xì)胞能夠穩(wěn)健地轉(zhuǎn)分化為神經(jīng)元。

50.Symmetrically Ion-Gated In-Plane Metal-Oxide Transistors for Highly Sensitive and Low-Voltage Driven Bioelectronics.

用于高靈敏度和低壓驅(qū)動(dòng)生物電子學(xué)的對(duì)稱離子門控面內(nèi)金屬氧化物晶體管。

51.Open-Source CFD Elucidating Mechanism of 3D Pillar Electrode in Improving All-Solid-State Battery Performance.

開源 CFD 闡明 3D 柱電極提高全固態(tài)電池性能的機(jī)制。

52.Self-Assembled Monolayers. Carbazole-based self-assembled monolayers are becoming a dominant hole-transporting layer in p-i-n perovskite solar cells, combining stability, efficiency, and low-cost. In article number 2104848 by David G. Lidzey and co-workers, spray coating and airbrush pen coating of MeO-2PACz is used to fabricate high-quality transport layers. This is combined with gas-quenched spray-coated perovskite layers, to realize solar cells with power conversion efficiencies in excess of 20%.

自組裝單層膜?；谶沁虻淖越M裝單分子層正在成為 pin 鈣鈦礦太陽能電池中的主要空穴傳輸層，兼具穩(wěn)定性、效率和低成本。在 David G. Lidzey 及其同事的文章編號(hào) 2104848 中，MeO-2PACz 的噴涂和噴槍涂層用于制造高質(zhì)量的傳輸層。與氣淬噴涂鈣鈦礦層相結(jié)合，可實(shí)現(xiàn)能量轉(zhuǎn)換效率超過 20% 的太陽能電池。

53.Smart Windows. In article number 2106090 by Sai Liu, Chi Yan Tso, and co-workers, a self-activated thermochromic perovskite smart window is developed. This window demonstrates a passive color-switch ability between cold and hot weathers. Notably, the window can smartly harvest the near-IR by the photothermal layer to trigger the thermochromism at room temperature, showing great potential for use as a new generation window technology in buildings.

智能窗戶。?Sai Liu、Chi Yan Tso 及其同事在第 2106090 號(hào)文章中開發(fā)了一種自激活熱致變色鈣鈦礦智能窗。該窗口展示了寒冷和炎熱天氣之間的被動(dòng)顏色切換能力。值得注意的是，該窗戶可以通過光熱層巧妙地收集近紅外光，從而在室溫下觸發(fā)熱致變色，顯示出作為新一代建筑窗戶技術(shù)的巨大潛力。

54.Flexible Transparent Electrodes. In article number 2105331, Xiaoyang Zhu, Hongbo Lan, and co-workers develop a fabrication method for flexible transparent electrodes (FTEs) with embedded metal mesh via liquid substrate electric-fielddriven microscale 3D printing. This method enables the embedded metal mesh with high resolution and high aspect ratio to be formed directly. Moreover, the fabricated FTEs show good application in intelligent structures and sensors.

柔性透明電極。在第 2105331 號(hào)文章中，Xiaoyang Zhu、Hongbo Lan 及其同事開發(fā)了一種通過液體基板電場驅(qū)動(dòng)微型 3D 打印嵌入金屬網(wǎng)的柔性透明電極 (FTE) 的制造方法。該方法能夠直接形成高分辨率、高縱橫比的嵌入式金屬網(wǎng)格。此外，所制造的 FTE 在智能結(jié)構(gòu)和傳感器中顯示出良好的應(yīng)用。

55.Graphene-Based Nerve Scaffold with Endogenous Electrical Signals. In the Three Kingdoms Period of ancient China, the chief minister of the Shu Kingdom borrowed arrows with thatched boats from the enemy country. In article number 2104424, Chunhui Sun, Ning Meng, Lin Han, Hong Liu, and co-workers introduce wireless electrical stimuli using graphene as generator under rotating magnetic field, to direct adipose-derived mesenchymal stem cells (ADMSCs) to differentiate into functional neurons. This safe magnetoelectricity conversion provides localized electrical stimulation for potential neurodegenerative therapy.

具有內(nèi)源性電信號(hào)的石墨烯神經(jīng)支架。中國古代三國時(shí)期，蜀國丞相用茅草船向敵國借箭。在第 2104424 號(hào)文章中，Chunhui Sun、Ning meng、Lin Han、Hong Liu 及其同事介紹了在旋轉(zhuǎn)磁場下使用石墨烯作為發(fā)生器的無線電刺激，以引導(dǎo)脂肪源性間充質(zhì)干細(xì)胞 (ADMSC) 分化為功能性神經(jīng)元。這種安全的磁電轉(zhuǎn)換為潛在的神經(jīng)退行性疾病治療提供了局部電刺激。

56.Organ-on-a-Chip. A microfluidic organ-on-a-chip model of the human lymphoid follicle that recapitulates vaccination responses in vitro. Blood-derived cells self assemble into germinal centers in a matrix gel in the lower channel when nutrient medium is flowed through the upper channel. Antigen-specific antibodies and cytokines are secreted in response to seasonal influenza vaccination that mirror responses observed in patients. More details can be found in article number 2103241 by Donald E. Ingber and co-workers.

器官芯片。人類淋巴濾泡的微流體芯片器官模型，可重現(xiàn)體外疫苗接種反應(yīng)。當(dāng)營養(yǎng)培養(yǎng)基流過上部通道時(shí)，血液來源的細(xì)胞在下部通道的基質(zhì)凝膠中自組裝成生發(fā)中心。季節(jié)性流感疫苗接種后會(huì)分泌抗原特異性抗體和細(xì)胞因子，這反映了患者中觀察到的反應(yīng)。更多詳細(xì)信息請(qǐng)參閱 Donald E. Ingber 及其同事撰寫的文章編號(hào) 2103241。

57.Extracellular Vesicle. In article number 2105853 by Renjun Pei, Shaohua Lu, Hsian-Rong Tseng, Yazhen Zhu, and co-workers, an efficient, convenient, and rapid extracellular vesicle (EV) enrichment platform called EV Click Beads is developed by combining lipid labelling and click chemistry-based capturing. EV Click Beads provides a non-invasive diagnostic solution for detection of disease status and monitoring treatment response for cancer patients, including Ewing sarcoma, the second most common type of bone cancer in children.

細(xì)胞外囊泡。在 Renjun Pei、Shaohua Lu、Hsian-Rong Tseng、Yazhen Zhu 及其同事的文章編號(hào) 2105853 中，通過結(jié)合脂質(zhì)標(biāo)記和點(diǎn)擊，開發(fā)了一種基于化學(xué)高效、方便、快速的細(xì)胞外囊泡 (EV) 富集平臺(tái) EV Click Beads。?EV Click Beads 提供了一種非侵入性診斷解決方案，用于檢測癌癥患者的疾病狀態(tài)和監(jiān)測治療反應(yīng)，包括尤文肉瘤（兒童第二常見的骨癌類型）。

58.Optical Indicators based on Structural Colored Polymers.

基于結(jié)構(gòu)有色聚合物的光學(xué)指示器。

59.Recent Developments in Upscalable Printing Techniques for Perovskite Solar Cells.

鈣鈦礦太陽能電池可升級(jí)印刷技術(shù)的最新進(jìn)展。

60.Recent Advances in Structure Separation of Single-Wall Carbon Nanotubes and Their Application in Optics, Electronics, and Optoelectronics.

單壁碳納米管結(jié)構(gòu)分離及其在光學(xué)、電子學(xué)和光電子學(xué)中的應(yīng)用的最新進(jìn)展。

61.Wide-Bandgap Organic–Inorganic Lead Halide Perovskite Solar Cells.

寬帶隙有機(jī)-無機(jī)鹵化鉛鈣鈦礦太陽能電池。

62.Biomineralized Materials as Model Systems for Structural Composites: Intracrystalline Structural Features and Their Strengthening and Toughening Mechanisms.

生物礦化材料作為結(jié)構(gòu)復(fù)合材料的模型系統(tǒng)：晶內(nèi)結(jié)構(gòu)特征及其強(qiáng)化和增韌機(jī)制。

63.Gas-Assisted Spray Coating of Perovskite Solar Cells Incorporating Sprayed Self-Assembled Monolayers.

包含噴涂自組裝單層膜的鈣鈦礦太陽能電池的氣體輔助噴涂。

64.Near-Infrared-Activated Thermochromic Perovskite Smart Windows.

近紅外激活熱致變色鈣鈦礦智能窗。

65.Directly Printed Embedded Metal Mesh for Flexible Transparent Electrode via Liquid Substrate Electric-Field-Driven Jet.

通過液體基底電場驅(qū)動(dòng)噴射直接打印嵌入式金屬網(wǎng)用于柔性透明電極。

66.Regulation of Neural Differentiation of ADMSCs using Graphene-Mediated Wireless-Localized Electrical Signals Driven by Electromagnetic Induction.

使用電磁感應(yīng)驅(qū)動(dòng)的石墨烯介導(dǎo)的無線局部電信號(hào)調(diào)節(jié) ADMSC 的神經(jīng)分化。

67.Coupling Lipid Labeling and Click Chemistry Enables Isolation of Extracellular Vesicles for Noninvasive Detection of Oncogenic Gene Alterations.

將脂質(zhì)標(biāo)記和點(diǎn)擊化學(xué)結(jié)合起來，可以分離細(xì)胞外囊泡，以無創(chuàng)檢測致癌基因改變。

68.Edge State Quantum Interference in Twisted Graphitic Interfaces.

扭曲圖形界面中的邊緣態(tài)量子干涉。

69.Acid-Responsive Dual-Targeted Nanoparticles Encapsulated Aspirin Rescue the Immune Activation and Phenotype in Autism Spectrum Disorder.

酸響應(yīng)雙靶點(diǎn)納米顆粒封裝阿司匹林拯救自閉癥譜系障礙的免疫激活和表型。

70.Tumor Derived Extracellular Vesicles Drive T Cell Exhaustion in Tumor Microenvironment through Sphingosine Mediated Signaling and Impacting Immunotherapy Outcomes in Ovarian Cancer.

腫瘤衍生的細(xì)胞外囊泡通過鞘氨醇介導(dǎo)的信號(hào)傳導(dǎo)驅(qū)動(dòng)腫瘤微環(huán)境中的 T 細(xì)胞耗竭，并影響卵巢癌的免疫治療結(jié)果。

71.Ni2+-Directed Anisotropic Growth of PtCu Nested Skeleton Cubes Boosting Electroreduction of Oxygen.

Ni2+ 定向 PtCu 嵌套骨架立方體的各向異性生長促進(jìn)氧的電還原。

72.A Vehicle-Free Antimicrobial Polymer Hybrid Gold Nanoparticle as Synergistically Therapeutic Platforms for Staphylococcus aureus Infected Wound Healing.

無載體抗菌聚合物混合金納米顆粒作為金黃色葡萄球菌感染傷口愈合的協(xié)同治療平臺(tái)。

73.MYPT1/PP1-Mediated EZH2 Dephosphorylation at S21 Promotes Epithelial–Mesenchymal Transition in Fibrosis through Control of Multiple Families of Genes.

MYPT1/PP1 介導(dǎo)的 EZH2 S21 去磷酸化通過控制多個(gè)基因家族促進(jìn)纖維化中的上皮-間質(zhì)轉(zhuǎn)化。

74.Electronic Topological Transition as a Route to Improve Thermoelectric Performance in Bi0.5Sb1.5Te3.

電子拓?fù)滠S遷是提高 Bi0.5Sb1.5Te3 熱電性能的途徑。

75.Ultrahigh Piezoelectric Performance through Synergistic Compositional and Microstructural Engineering.

通過協(xié)同成分和微結(jié)構(gòu)工程實(shí)現(xiàn)超高壓電性能。

76.Hierarchical Network Enabled Flexible Textile Pressure Sensor with Ultrabroad Response Range and High-Temperature Resistance.

支持分層網(wǎng)絡(luò)的柔性紡織壓力傳感器，具有超寬響應(yīng)范圍和耐高溫性。

77.Living Bacteria-Based Immuno-Photodynamic Therapy: Metabolic Labeling of Clostridium butyricum for Eradicating Malignant Melanoma.

基于活細(xì)菌的免疫光動(dòng)力療法：丁酸梭菌的代謝標(biāo)記用于根除惡性黑色素瘤。

78.Designing Self-Assembling Chimeric Peptide Nanoparticles with High Stability for Combating Piglet Bacterial Infections.

設(shè)計(jì)具有高穩(wěn)定性的自組裝嵌合肽納米顆粒，用于對(duì)抗仔豬細(xì)菌感染。

79.Transparent, Photothermal, and Icephobic Surfaces via Layer-by-Layer Assembly.

通過逐層組裝實(shí)現(xiàn)透明、光熱和防冰表面。

80.Self-Sacrifice Template Construction of Uniform Yolk–Shell ZnS@C for Superior Alkali-Ion Storage.

用于高級(jí)堿離子存儲(chǔ)的均勻蛋黃殼 ZnS@C 的自犧牲模板構(gòu)建。

81.Cesium Lead Halide Perovskite Nanocrystals Assembled in Metal-Organic Frameworks for Stable Blue Light Emitting Diodes.

金屬有機(jī)框架中組裝的銫鉛鹵化物鈣鈦礦納米晶體可用于穩(wěn)定的藍(lán)光發(fā)射二極管。

82.Multifunctional Hard Yet Flexible Coatings Fabricated Using a Universal Step-by-Step Strategy.

采用通用分步策略制造的多功能硬而柔韌的涂層。

83.Unveiling the Synergistic Effect of Ferroelectric Polarization and Domain Configuration for Reversible Zinc Metal Anodes.

揭示可逆鋅金屬陽極的鐵電極化和疇結(jié)構(gòu)的協(xié)同效應(yīng)。

84.Effective Antifogging Coating from Hydrophilic/Hydrophobic Polymer Heteronetwork.

親水/疏水聚合物異質(zhì)網(wǎng)絡(luò)的有效防霧涂層。

85.A Highly Efficient Phosphorescence/Fluorescence Supramolecular Switch Based on a Bromoisoquinoline Cascaded Assembly in Aqueous Solution.

基于水溶液中溴異喹啉級(jí)聯(lián)組裝的高效磷光/熒光超分子開關(guān)。

86.Continuous Additive Manufacturing using Olefin Metathesis.

使用烯烴復(fù)分解進(jìn)行連續(xù)增材制造。

87.Targeting the Negative Feedback of Adenosine-A2AR Metabolic Pathway by a Tailored Nanoinhibitor for Photothermal Immunotherapy.

通過用于光熱免疫治療的定制納米抑制劑靶向腺苷-A2AR 代謝途徑的負(fù)反饋。

88.“Drug-Carrier” Synergy Therapy for Amyloid-β Clearance and Inhibition of Tau Phosphorylation via Biomimetic Lipid Nanocomposite Assembly.

通過仿生脂質(zhì)納米復(fù)合材料組裝清除淀粉樣蛋白-β 并抑制 Tau 磷酸化的“藥物載體”協(xié)同療法。

89.Sharp Tuning of Head Direction and Angular Head Velocity Cells in the Somatosensory Cortex.

體感皮層中頭部方向和頭部角速度細(xì)胞的急劇調(diào)整。

90.High-Performance, Flexible NO2 Chemiresistors Achieved by Design of Imine-Incorporated n-Type Conjugated Polymers.

通過亞胺摻入的 n 型共軛聚合物的設(shè)計(jì)實(shí)現(xiàn)了高性能、靈活的 NO2 化學(xué)電阻。

91.Microbial Metabolite Inspired β-Peptide Polymers Displaying Potent and Selective Antifungal Activity.

微生物代謝物啟發(fā)的 β-肽聚合物顯示出有效和選擇性的抗真菌活性。

92.Nanotwins Strengthening High Thermoelectric Performance Bismuth Antimony Telluride Alloys.

Nanotwins 增強(qiáng)高熱電性能碲化鉍銻合金。

93.New Undisputed Evidence and Strategy for Enhanced Lattice-Oxygen Participation of Perovskite Electrocatalyst through Cation Deficiency Manipulation.

通過陽離子缺陷操縱增強(qiáng)鈣鈦礦電催化劑的晶格氧參與的新的無可爭議的證據(jù)和策略。