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.Yarn-Based Sweat-Activated Batteries. In article number 2103822, Yan Qiao, Zhisong Lu, and co-workers develop a weavable, washable and scalable cotton-yarn-based sweat-activated battery with a segmented structure. The 1-dimensional design enables the battery to be integrated into fabrics as a biocompatible and reliable power source for the construction of self-powered textile-based wearable systems.

基于紗線的汗液激活電池。在文章編號(hào) 2103822 中，Yan Qiao、Zhisong Lu 和同事開(kāi)發(fā)了一種可編織、可清洗且可擴(kuò)展的具有分段結(jié)構(gòu)的基于棉紗的汗液激活電池。一維設(shè)計(jì)使電池能夠集成到織物中，作為構(gòu)建自供電的基于織物的可穿戴系統(tǒng)的生物相容性和可靠的電源。

2.Pathophysiological Model of SARS-CoV-2 Infection. Human-induced pluripotent stem cell (hiPSC)-derived skin organoids can be used to investigate the susceptibility of skin cells to SARS-CoV-2 infection, providing the possibility to identify various pathological mechanisms and drug screening strategies. In article number 2104192, Shuyang Zhang, Yiwu Zhou, Manli Wang, Ling Leng, and co-workers, established an experimental skin organoid model from hiPSC with hair follicles and nervous system and proved KRT17+ hair follicles and different types of nervous cells can be infected by SARS-CoV-2, providing the evidence for association between COVID-19 and hair loss.

SARS-CoV-2 感染的病理生理學(xué)模型。人誘導(dǎo)多能干細(xì)胞（hiPSC）衍生的皮膚類器官可用于研究皮膚細(xì)胞對(duì)SARS-CoV-2感染的敏感性，為識(shí)別各種病理機(jī)制和藥物篩選策略提供了可能性。在第2104192號(hào)文章中，Shuyang Zhang、Yiwu Zhou、Manli Wang、Ling Leng等人利用hiPSC建立了具有毛囊和神經(jīng)系統(tǒng)的實(shí)驗(yàn)性皮膚類器官模型，并證明KRT17+毛囊和不同類型的神經(jīng)細(xì)胞可以被感染SARS-CoV-2，提供了 COVID-19 與脫發(fā)之間關(guān)聯(lián)的證據(jù)。

3.Artificial Melanosome for Transdermal Delivery. In article number 2103503 by Uk-Jae Lee, Nathaniel S. Hwang, Byung-Gee Kim, and co-workers, light-triggered in situ biosynthesis of artificial melanin in native skin is proposed and demonstrated using photoactivatable tyrosinase. Photoactivatable tyrosinase is synthesized with site-specific incorporation of o-nitrobenzyl tyrosine and then encapsulated into lipid nanoparticles as an artificial melanosome for transdermal delivery. This biomimetic system can recapitulate the biosynthetic analogs of naturally occurring melanin.

用于透皮遞送的人工黑素體。在 Uk-Jae Lee、Nathaniel S. Hwang、Byung-Gee Kim 及其同事撰寫的第 2103503 篇文章中，提出并演示了使用光活化酪氨酸酶在天然皮膚中光觸發(fā)原位生物合成人工黑色素。光活化酪氨酸酶是通過(guò)位點(diǎn)特異性摻入鄰硝基芐基酪氨酸合成的，然后封裝到脂質(zhì)納米顆粒中作為人工黑素體用于透皮遞送。這種仿生系統(tǒng)可以概括天然黑色素的生物合成類似物。

4.Tumor Starvation Therapy. In article number 2103534 by Zhenzhong Zhang, Junjie Liu, Jinjin Shi, and co-workers, a “nano-enabled energy interrupter”-initiated novel paradigm of tumor starvation therapy is proposed. The energy interrupter shows a preferential tumor systemic energy exhaustion without obvious side effects by synergizing the “Zn2+ interference”-mediated glycolysis inhibition and Zn2+-activating GLUT1 (glucose transporter 1) tumor specific depletion.

腫瘤饑餓療法。在章振中、劉俊杰、施金金及其同事的第 2103534 號(hào)文章中，提出了一種“納米能量中斷器”引發(fā)的腫瘤饑餓療法的新范例。能量中斷器通過(guò)協(xié)同“Zn2+干擾”介導(dǎo)的糖酵解抑制和Zn2+激活GLUT1（葡萄糖轉(zhuǎn)運(yùn)蛋白1）腫瘤特異性耗竭，顯示出優(yōu)先的腫瘤全身能量耗盡，而沒(méi)有明顯的副作用。

5.Surgery Navigation System. Surgeons face challenges in defining brain tumor margins due to its infiltrative nature. In article number 2104935 by Ying Mao, Jinhua Yu, Xiao-Yong Zhang, Cong Li, and co-workers, an intelligent SERS navigation system is developed to intraoperatively guide tumor resection by delineating the metabolic acidosis without the administration of exogenous probes. Considering the correlation between tissue acidity and malignancy, this system holds the promise in improving surgical prognosis by precisely defining tumor infiltrative regions.

手術(shù)導(dǎo)航系統(tǒng)。由于其浸潤(rùn)性，外科醫(yī)生在確定腦腫瘤邊緣時(shí)面臨著挑戰(zhàn)。在 Ying Mao、Jinhua Yu、Xiao-Yong Zhang、Cong Li 及其同事的文章編號(hào) 2104935 中，開(kāi)發(fā)了一種智能 SERS 導(dǎo)航系統(tǒng)，通過(guò)描繪代謝性酸中毒，在術(shù)中指導(dǎo)腫瘤切除，無(wú)需使用外源探針。考慮到組織酸度與惡性腫瘤之間的相關(guān)性，該系統(tǒng)有望通過(guò)精確定義腫瘤浸潤(rùn)區(qū)域來(lái)改善手術(shù)預(yù)后。

6.Strategies for Electrochemically Sustainable H2 Production in Acid.

酸中電化學(xué)可持續(xù)制氫的策略。

7.SUMOylation in Viral Replication and Antiviral Defense.

病毒復(fù)制和抗病毒防御中的 SUMOylation。

8.Perovskite Quantum Dots in Solar Cells.

太陽(yáng)能電池中的鈣鈦礦量子點(diǎn)。

9.Biomarkers and Detection Platforms for Human Health and Performance Monitoring: A Review.

用于人類健康和性能監(jiān)測(cè)的生物標(biāo)志物和檢測(cè)平臺(tái)：綜述。

10.A New Class of Electronic Devices Based on Flexible Porous Substrates.

基于柔性多孔基板的新型電子器件。

11.A Weavable and Scalable Cotton-Yarn-Based Battery Activated by Human Sweat for Textile Electronics.

一種可編織且可擴(kuò)展的棉紗電池，可通過(guò)人體汗液激活，用于紡織電子產(chǎn)品。

12.Establishment of Human Pluripotent Stem Cell-Derived Skin Organoids Enabled Pathophysiological Model of SARS-CoV-2 Infection.

人類多能干細(xì)胞衍生的皮膚類器官的建立使 SARS-CoV-2 感染的病理生理學(xué)模型成為可能。

13.Light-Triggered In Situ Biosynthesis of Artificial Melanin for Skin Protection.

用于皮膚保護(hù)的光觸發(fā)人工黑色素原位生物合成。

14.Nano-enabled Tumor Systematic Energy Exhaustion via Zinc (II) Interference Mediated Glycolysis Inhibition and Specific GLUT1 Depletion.

通過(guò)鋅 (II) 干擾介導(dǎo)的糖酵解抑制和特異性 GLUT1 耗竭實(shí)現(xiàn)納米腫瘤系統(tǒng)能量耗盡。

15.Intelligent SERS Navigation System Guiding Brain Tumor Surgery by Intraoperatively Delineating the Metabolic Acidosis.

智能 SERS 導(dǎo)航系統(tǒng)通過(guò)術(shù)中描繪代謝性酸中毒來(lái)指導(dǎo)腦腫瘤手術(shù)。

16.Synergistic Manipulation of Na+ Flux and Surface-Preferred Effect Enabling High-Areal-Capacity and Dendrite-Free Sodium Metal Battery.

Na+通量和表面擇優(yōu)效應(yīng)的協(xié)同調(diào)控可實(shí)現(xiàn)高面積容量和無(wú)枝晶鈉金屬電池。

17.Dual Role of Mo6S8 in Polysulfide Conversion and Shuttle for Mg–S Batteries.

Mo6S8 在鎂硫電池多硫化物轉(zhuǎn)化和穿梭中的雙重作用。

18.Targeting the RT loop of Src SH3 in Platelets Prevents Thrombosis without Compromising Hemostasis.

靶向血小板中 Src SH3 的 RT 環(huán)可在不影響止血的情況下防止血栓形成。

19.UNC5C Receptor Proteolytic Cleavage by Active AEP Promotes Dopaminergic Neuronal Degeneration in Parkinson's Disease.

活性 AEP 引起的 UNC5C 受體蛋白水解裂解促進(jìn)帕金森病中的多巴胺能神經(jīng)元變性。

20.Photomultiplication-Type Organic Photodetectors for Near-Infrared Sensing with High and Bias-Independent Specific Detectivity.

用于近紅外傳感的光電倍增型有機(jī)光電探測(cè)器，具有高且與偏差無(wú)關(guān)的比探測(cè)率。

21.Endothelial Retargeting of AAV9 In Vivo.

AAV9 體內(nèi)內(nèi)皮重定位。

22.Cyanine-Doped Lanthanide Metal–Organic Frameworks for Near-Infrared II Bioimaging.

用于近紅外 II 生物成像的氰摻雜鑭系金屬有機(jī)框架。

23.Highly Plasticized Lanthanide Luminescence for Information Storage and Encryption Applications.

用于信息存儲(chǔ)和加密應(yīng)用的高塑性鑭系元素發(fā)光。

24.Inflammation-Triggered Supramolecular Nanoplatform for Local Dynamic Dependent Imaging-Guided Therapy of Rheumatoid Arthritis.

用于類風(fēng)濕關(guān)節(jié)炎局部動(dòng)態(tài)依賴性成像引導(dǎo)治療的炎癥觸發(fā)超分子納米平臺(tái)。

25.Spherical Ni3S2/Fe-NiPx Magic Cube with Ultrahigh Water/Seawater Oxidation Efficiency.

具有超高水/海水氧化效率的球形 Ni3S2/Fe-NiPx 魔方。

26.MoS2/MXene Aerogel with Conformal Heterogeneous Interfaces Tailored by Atomic Layer Deposition for Tunable Microwave Absorption.

具有共形異質(zhì)界面的 MoS2/MXene 氣凝膠，通過(guò)原子層沉積定制，用于可調(diào)諧微波吸收。

27.Targeting PI3Kγ/AKT Pathway Remodels LC3-Associated Phagocytosis Induced Immunosuppression After Radiofrequency Ablation.

靶向 PI3Kγ/AKT 通路重塑射頻消融后 LC3 相關(guān)的吞噬作用誘導(dǎo)的免疫抑制。

28.Extracellular Vesicles Mediate the Intercellular Exchange of Nanoparticles.

細(xì)胞外囊泡介導(dǎo)納米顆粒的細(xì)胞間交換。

29.Identification of Sclareol As a Natural Neuroprotective CAV1.3-Antagonist Using Synthetic Parkinson-Mimetic Gene Circuits and Computer-Aided Drug Discovery.

使用合成帕金森模擬基因電路和計(jì)算機(jī)輔助藥物發(fā)現(xiàn)鑒定香紫蘇醇作為天然神經(jīng)保護(hù)性 CAV1.3 拮抗劑。

30.Smad4 Deficiency Promotes Pancreatic Cancer Immunogenicity by Activating the Cancer-Autonomous DNA-Sensing Signaling Axis.

Smad4 缺陷通過(guò)激活癌癥自主 DNA 傳感信號(hào)軸促進(jìn)胰腺癌免疫原性。

31.Pseudomonas aeruginosa Biofilm Dispersion by the Human Atrial Natriuretic Peptide.

人心房鈉尿肽對(duì)銅綠假單胞菌生物膜的分散。

32.Atomistic Engineering of Phonons in Functional Oxide Heterostructures.

功能氧化物異質(zhì)結(jié)構(gòu)中聲子的原子工程。

33.A Guanosine-Quadruplex Hydrogel as Cascade Reaction Container Consuming Endogenous Glucose for Infected Wound Treatment—A Study in Diabetic Mice.

鳥(niǎo)苷四聯(lián)體水凝膠作為消耗內(nèi)源葡萄糖的級(jí)聯(lián)反應(yīng)容器用于感染傷口治療——糖尿病小鼠的研究。

34.Sustaining Robust Cavities with Slippery Liquid–Liquid Interfaces.

通過(guò)光滑的液-液界面維持堅(jiān)固的腔體。

35.Wood-Derived, Vertically Aligned, and Densely Interconnected 3D SiC Frameworks for Anisotropically Highly Thermoconductive Polymer Composites.

用于各向異性高導(dǎo)熱聚合物復(fù)合材料的木材衍生、垂直排列和密集互連的 3D SiC 框架。

36.Irisin Promotes Cardiac Homing of Intravenously Delivered MSCs and Protects against Ischemic Heart Injury.

鳶尾素促進(jìn)靜脈輸送的 MSC 向心臟歸巢并預(yù)防缺血性心臟損傷。

37.Boosting the Self-Trapped Exciton Emission in Alloyed Cs2(Ag/Na)InCl6 Double Perovskite via Cu+ Doping.

通過(guò) Cu+ 摻雜提高合金 Cs2(Ag/Na)InCl6 雙鈣鈦礦中的自陷激子發(fā)射。

38.Pancake Jumping of Sessile Droplets.

固著液滴的煎餅跳躍。

39.Retina-Inspired Self-Powered Artificial Optoelectronic Synapses with Selective Detection in Organic Asymmetric Heterojunctions.

受視網(wǎng)膜啟發(fā)的自供電人工光電突觸，可在有機(jī)不對(duì)稱異質(zhì)結(jié)中進(jìn)行選擇性檢測(cè)。

40.PICH Supports Embryonic Hematopoiesis by Suppressing a cGAS-STING-Mediated Interferon Response.

PICH 通過(guò)抑制 cGAS-STING 介導(dǎo)的干擾素反應(yīng)來(lái)支持胚胎造血。

41.Multimodal Locomotion and Active Targeted Thermal Control of Magnetic Agents for Biomedical Applications.

用于生物醫(yī)學(xué)應(yīng)用的磁性劑的多模式運(yùn)動(dòng)和主動(dòng)靶向熱控制。

42.Bortezomib-Encapsulated Dual Responsive Copolymeric Nanoparticles for Gallbladder Cancer Targeted Therapy.

用于膽囊癌靶向治療的硼替佐米封裝雙響應(yīng)共聚物納米顆粒。

43.Abundance and Metabolism Disruptions of Intratumoral Microbiota by Chemical and Physical Actions Unfreeze Tumor Treatment Resistance.

化學(xué)和物理作用對(duì)腫瘤內(nèi)微生物群的豐度和代謝造成破壞，從而解凍腫瘤治療耐藥性。

44.Ultralarge Free-Standing Imine-Based Covalent Organic Framework Membranes Fabricated via Compression.

通過(guò)壓縮制造的超大獨(dú)立式亞胺基共價(jià)有機(jī)框架膜。

45.Gel Electrolyte Constructing Zn (002) Deposition Crystal Plane Toward Highly Stable Zn Anode.

凝膠電解質(zhì)構(gòu)造 Zn (002) 沉積晶面以實(shí)現(xiàn)高度穩(wěn)定的 Zn 陽(yáng)極。

46.Single-Nucleus RNA Sequencing Reveals that Decorin Expression in the Amygdala Regulates Perineuronal Nets Expression and Fear Conditioning Response after Traumatic Brain Injury.

單核 RNA 測(cè)序揭示杏仁核中核心蛋白聚糖的表達(dá)調(diào)節(jié)神經(jīng)元周圍網(wǎng)絡(luò)的表達(dá)和創(chuàng)傷性腦損傷后的恐懼調(diào)節(jié)反應(yīng)。

47.Simultaneously Achieving Highly Efficient and Stable Polymer:Non-Fullerene Solar Cells Enabled By Molecular Structure Optimization and Surface Passivation.

同時(shí)實(shí)現(xiàn)高效穩(wěn)定的聚合物：通過(guò)分子結(jié)構(gòu)優(yōu)化和表面鈍化實(shí)現(xiàn)的非富勒烯太陽(yáng)能電池。

48.Bridged Carbon Fabric Membrane with Boosted Performance in AC Line-Filtering Capacitors.

橋接碳纖維膜可提高交流線路濾波電容器的性能。

49.Printed Electronics. Recent progress in electronics has expanded their applicability in various fields in which structural conformability and 3D configuration are required. High-resolution 3D printing technologies for forming dynamic electronic structures are of increasing interest. More details can be found in article number 2104623 by Jang-Ung Park and co-workers.

印刷電子產(chǎn)品。電子學(xué)的最新進(jìn)展擴(kuò)大了其在需要結(jié)構(gòu)一致性和 3D 配置的各個(gè)領(lǐng)域的適用性。用于形成動(dòng)態(tài)電子結(jié)構(gòu)的高分辨率 3D 打印技術(shù)越來(lái)越受到人們的關(guān)注。更多詳細(xì)信息，請(qǐng)參閱 Jang-Ung Park 及其同事的文章編號(hào) 2104623。

50.Wearable Bioelectronics. Wearable bioelectronics pursues superior biopolymer fabric enduring mechanical stress during workouts. In article number 2105420, Sangmin Lee, Jinkee Hong, and co-workers develop a super-tough silk fibroin fabric band by encoding the domains for stress dissipation. Precisely crosslinked phenolic amino acid offers sufficient toughness exceeding the fitness-originated fabric deformations. Furthermore, the proposed silk bioelectronics can assist the active workouts by relieving muscular fatigue and injuries.

可穿戴生物電子學(xué)?？纱┐魃镫娮訉W(xué)追求卓越的生物聚合物織物，能夠在鍛煉期間承受機(jī)械應(yīng)力。在第 2105420 號(hào)文章中，Sangmin Lee、Jinkee Hong 及其同事通過(guò)對(duì)應(yīng)力消散域進(jìn)行編碼，開(kāi)發(fā)了一種超堅(jiān)韌的絲素蛋白織物帶。精確交聯(lián)的酚類氨基酸提供了足夠的韌性，超過(guò)了健身引起的織物變形。此外，所提出的絲生物電子學(xué)可以通過(guò)緩解肌肉疲勞和損傷來(lái)協(xié)助主動(dòng)鍛煉。

51.Lymph-Directed Drug Delivery. In article number 2101935, Jihoon Kim, Won Jong Kim, and co-workers introduce an albumin-conjugated self-immolative nitric oxide (NO) prodrug to achieve lymph-directed NO delivery for inhibition of tumor metastasis. This novel prodrug can contribute to the on-demand delivery of NO for biomedical applications.

淋巴定向藥物輸送。在第 2101935 號(hào)文章中，Jihoon Kim、Won Jong Kim 及其同事介紹了一種白蛋白綴合的自焚一氧化氮 (NO) 前藥，可實(shí)現(xiàn)淋巴定向 NO 遞送，從而抑制腫瘤轉(zhuǎn)移。這種新型前藥有助于生物醫(yī)學(xué)應(yīng)用中 NO 的按需輸送。

52.Conductive-Bridge Phase-Change Memory. In article number 2103478, Ming Xu, Xiangshui Miao, Wei Zhang, En Ma, and co-workers design a conductive-bridge phase-change memory, forming self-patterned heterogeneous networks of crystalline and amorphous nanodomains. The switching proceeds via forming/breaking nanobridges that link up the crystalline domains into a conductive path, resulting in ultralow power consumptions for memory programming.

導(dǎo)電橋相變存儲(chǔ)器。在第 2103478 號(hào)文章中，Ming Xu、Xiangshui Miao、Wei Zhang、En Ma 及其同事設(shè)計(jì)了一種導(dǎo)電橋相變存儲(chǔ)器，形成了晶體和非晶納米域的自圖案化異質(zhì)網(wǎng)絡(luò)。切換通過(guò)形成/破壞納米橋來(lái)進(jìn)行，納米橋?qū)⒕в蜻B接成導(dǎo)電路徑，從而實(shí)現(xiàn)存儲(chǔ)器編程的超低功耗。

53.Dispersive Waves. The optical properties of optical fibers with exposed cores can be straightforwardly tuned by the deposition of high refractive index nano-films (green) inducing tailored resonances. In article number 2103864 by Markus A. Schmidt and co-workers, a precise dispersion design and tailored supercontinuum generation is enabled through periodically structured nano-films. Multicolor, user-defined femtosecond frequency conversion to higher order dispersive waves by quasi-phase matching is demonstrated.

色散波。具有裸露芯的光纖的光學(xué)特性可以通過(guò)沉積高折射率納米薄膜（綠色）來(lái)誘導(dǎo)定制諧振來(lái)直接調(diào)節(jié)。在 Markus A. Schmidt 及其同事撰寫的第 2103864 號(hào)文章中，通過(guò)周期性結(jié)構(gòu)的納米薄膜實(shí)現(xiàn)了精確的色散設(shè)計(jì)和定制的超連續(xù)譜生成。演示了通過(guò)準(zhǔn)相位匹配將多色、用戶定義的飛秒頻率轉(zhuǎn)換為高階色散波。

54.High-Resolution 3D Printing for Electronics.

電子產(chǎn)品高分辨率 3D 打印。

55.Protein Nanoparticles: Uniting the Power of Proteins with Engineering Design Approaches.

蛋白質(zhì)納米顆粒：將蛋白質(zhì)的力量與工程設(shè)計(jì)方法結(jié)合起來(lái)。

56.2D Polymer Nanosheets for Membrane Separation.

用于膜分離的二維聚合物納米片。

57.A Shift from Efficiency to Adaptability: Recent Progress in Biomimetic Interactive Soft Robotics in Wet Environments.

從效率到適應(yīng)性的轉(zhuǎn)變：潮濕環(huán)境中仿生交互式軟機(jī)器人的最新進(jìn)展。

58.Epitaxy of 2D Materials toward Single Crystals.

二維材料向單晶的外延。

59.Stress Dissipation Encoded Silk Fibroin Electrode for the Athlete-Beneficial Silk Bioelectronics.

用于運(yùn)動(dòng)員有益的絲生物電子學(xué)的應(yīng)力耗散編碼絲素蛋白電極。

60.Lymph-Directed Self-Immolative Nitric Oxide Prodrug for Inhibition of Intractable Metastatic Cancer.

淋巴定向自焚一氧化氮前藥用于抑制頑固性轉(zhuǎn)移癌。

61.Designing Conductive-Bridge Phase-Change Memory to Enable Ultralow Programming Power.

設(shè)計(jì)導(dǎo)電橋相變存儲(chǔ)器以實(shí)現(xiàn)超低編程功耗。

62.Tailored Multi-Color Dispersive Wave Formation in Quasi-Phase-Matched Exposed Core Fibers.

準(zhǔn)相位匹配裸露芯光纖中定制的多色色散波形成。

63.Pyruvate Facilitates FACT-Mediated γH2AX Loading to Chromatin and Promotes the Radiation Resistance of Glioblastoma.

丙酮酸促進(jìn) FACT 介導(dǎo)的 γH2AX 加載到染色質(zhì)并促進(jìn)膠質(zhì)母細(xì)胞瘤的放射抗性。

64.Ferromagnetic Double Perovskite Semiconductors with Tunable Properties.

具有可調(diào)特性的鐵磁雙鈣鈦礦半導(dǎo)體。

65.A Selective Small-Molecule c-Myc Degrader Potently Regresses Lethal c-Myc Overexpressing Tumors.

選擇性小分子 c-Myc 降解劑可有效消退致命的 c-Myc 過(guò)度表達(dá)腫瘤。

66.Ultra-Steep-Slope High-Gain MoS2 Transistors with Atomic Threshold-Switching Gate.

具有原子閾值開(kāi)關(guān)門的超陡坡高增益 MoS2 晶體管。

67.Targeting Cancer Metabolism Plasticity with JX06 Nanoparticles via Inhibiting PDK1 Combined with Metformin for Endometrial Cancer Patients with Diabetes.

使用 JX06 納米顆粒通過(guò)抑制 PDK1 聯(lián)合二甲雙胍來(lái)靶向癌癥代謝可塑性，治療患有糖尿病的子宮內(nèi)膜癌患者。

68.Regulating Interfacial Li-Ion Transport via an Integrated Corrugated 3D Skeleton in Solid Composite Electrolyte for All-Solid-State Lithium Metal Batteries.

通過(guò)全固態(tài)鋰金屬電池固體復(fù)合電解質(zhì)中的集成波紋 3D 骨架調(diào)節(jié)界面鋰離子傳輸。

69.Spin Wave Electromagnetic Nano-Antenna Enabled by Tripartite Phonon-Magnon-Photon Coupling.

由三方聲子-磁子-光子耦合實(shí)現(xiàn)的自旋波電磁納米天線。

70.Manipulating Copper Dispersion on Ceria for Enhanced Catalysis: A Nanocrystal-Based Atom-Trapping Strategy.

操縱二氧化鈰上的銅分散體以增強(qiáng)催化作用：基于納米晶體的原子捕獲策略。

71.Dynamic Adjust of Non-Radiative and Radiative Attenuation of AIE Molecules Reinforces NIR-II Imaging Mediated Photothermal Therapy and Immunotherapy.

AIE 分子非輻射和輻射衰減的動(dòng)態(tài)調(diào)整增強(qiáng)了 NIR-II 成像介導(dǎo)的光熱療法和免疫療法。

72.Fast-Response Oxygen Optical Fiber Sensor based on PEA2SnI4 Perovskite with Extremely Low Limit of Detection.

基于 PEA2SnI4 鈣鈦礦的快速響應(yīng)氧氣光纖傳感器，具有極低的檢測(cè)限。

73.Highly-Scattering Cellulose-Based Films for Radiative Cooling.

用于輻射冷卻的高散射纖維素基薄膜。

74.Low-Crystalline AuCuIn Catalyst for Gaseous CO2 Electrolyzer.

用于氣態(tài) CO2 電解槽的低結(jié)晶 AuCuIn 催化劑。

75.The TFAMoplex—Conversion of the Mitochondrial Transcription Factor A into a DNA Transfection Agent.

TFAMoplex——將線粒體轉(zhuǎn)錄因子 A 轉(zhuǎn)化為 DNA 轉(zhuǎn)染劑。

76.Low-Energy-Consumption and Electret-Free Photosynaptic Transistor Utilizing Poly(3-hexylthiophene)-Based Conjugated Block Copolymers.

利用聚（3-己基噻吩）基共軛嵌段共聚物的低能耗、無(wú)駐極體光突觸晶體管。

77.Transcriptome Analysis Revealed the Symbiosis Niche of 3D Scaffolds to Accelerate Bone Defect Healing.

轉(zhuǎn)錄組分析揭示了 3D 支架加速骨缺損愈合的共生利基。

78.Vertical Organic Electrochemical Transistors and Electronics for Low Amplitude Micro-Organ Signals.

用于低幅度微器官信號(hào)的垂直有機(jī)電化學(xué)晶體管和電子器件。

79.Rehabilitation of Total Knee Arthroplasty by Integrating Conjoint Isometric Myodynamia and Real-Time Rotation Sensing System.

集成聯(lián)合等長(zhǎng)肌力和實(shí)時(shí)旋轉(zhuǎn)傳感系統(tǒng)的全膝關(guān)節(jié)置換術(shù)康復(fù)。

80.Quasihexagonal Platinum Nanodendrites Decorated over CoS2-N-Doped Reduced Graphene Oxide for Electro-Oxidation of C1-, C2-, and C3-Type Alcohols.

準(zhǔn)六方鉑納米枝晶裝飾在 CoS2-N 摻雜還原氧化石墨烯上，用于 C1、C2 和 C3 型醇的電氧化。

81.Atomic Chromium Coordinated Graphitic Carbon Nitride for Bioinspired Antibiofouling in Seawater.

用于海水中仿生抗菌防垢的原子鉻配位石墨碳氮化物。

82.Releasing the Bubbles: Nanotopographical Electrocatalyst Design for Efficient Photoelectrochemical Hydrogen Production in Microgravity Environment.

釋放氣泡：微重力環(huán)境下高效光電化學(xué)制氫的納米拓?fù)潆姶呋瘎┰O(shè)計(jì)。

83.A “Valve-Closing” Starvation Strategy for Amplification of Tumor-Specific Chemotherapy.

用于放大腫瘤特異性化療的“閥門關(guān)閉”饑餓策略。

84.Autonomous Visualization of Damage in Polymers by Metal-Free Polymerizations of Microencapsulated Activated Alkynes.

微膠囊活化炔烴的無(wú)金屬聚合對(duì)聚合物損傷的自主可視化。

85.Unraveling CoNiP?CoP2 3D-on-1D Hybrid Nanoarchitecture for Long-Lasting Electrochemical Hybrid Cells and Oxygen Evolution Reaction.

揭示 CoNiP-CoP2 3D-on-1D 混合納米結(jié)構(gòu)，用于持久電化學(xué)混合電池和析氧反應(yīng)。

86.Conjugated Mesopolymer Achieving 15% Efficiency Single-Junction Organic Solar Cells.

共軛介觀聚合物實(shí)現(xiàn) 15% 效率的單結(jié)有機(jī)太陽(yáng)能電池。

87.Evolution of Hierarchically Porous Nickel Alumina Catalysts Studied by X-Ray Ptychography.

通過(guò) X 射線疊層照相術(shù)研究分級(jí)多孔鎳氧化鋁催化劑的演變。

88.Bioinspired Fatty Acid Amide-Based Slippery Oleogels for Shear-Stable Lubrication.

基于仿生脂肪酸酰胺的光滑油凝膠，用于剪切穩(wěn)定潤(rùn)滑。

89.Perfluorocarbon Nanoemulsions Enhance Therapeutic siRNA Delivery in the Treatment of Pulmonary Fibrosis.

全氟化碳納米乳劑增強(qiáng)了治療肺纖維化的 siRNA 遞送。

90.PIWI-Interacting RNA HAAPIR Regulates Cardiomyocyte Death After Myocardial Infarction by Promoting NAT10-Mediated ac4C Acetylation of Tfec mRNA.

PIWI 相互作用 RNA HAAPIR 通過(guò)促進(jìn) NAT10 介導(dǎo)的 Tfec mRNA ac4C 乙?；瘉?lái)調(diào)節(jié)心肌梗塞后心肌細(xì)胞死亡。

91.Hybrid Cathode Interlayer Enables 17.4% Efficiency Binary Organic Solar Cells.

混合陰極中間層可實(shí)現(xiàn) 17.4% 的二元有機(jī)太陽(yáng)能電池效率。

92.In Situ Construction of Efficient Interface Layer with Lithiophilic Nanoseeds toward Dendrite-Free and Low N/P Ratio Li Metal Batteries.

使用親鋰納米種子原位構(gòu)建高效界面層，實(shí)現(xiàn)無(wú)枝晶和低 N/P 比的鋰金屬電池。

93.circVAMP3 Drives CAPRIN1 Phase Separation and Inhibits Hepatocellular Carcinoma by Suppressing c-Myc Translation.

circVAMP3 驅(qū)動(dòng) CAPRIN1 相分離并通過(guò)抑制 c-Myc 翻譯來(lái)抑制肝細(xì)胞癌。

94.Glass-Crystallized Luminescence Translucent Ceramics toward High-Performance Broadband NIR LEDs.

用于高性能寬帶近紅外 LED 的玻璃結(jié)晶發(fā)光半透明陶瓷。

95.Ultrathin and Efficient Organic Photovoltaics with Enhanced Air Stability by Suppression of Zinc Element Diffusion.

通過(guò)抑制鋅元素?cái)U(kuò)散增強(qiáng)空氣穩(wěn)定性的超薄高效有機(jī)光伏。

96.Metastasis Prevention. In article number 2101472 by Yongjun Liu, Na Zhang, and co-workers, a “roots and seeds” multipoint costriking strategy is proposed to eliminate primary tumors and associated-circulating tumor cells (CTCs). The multipoint costriking nanodevice could specifically capture CTCs, dissociate CTC clusters, block the formation of CTC-neutrophil clusters, and finally kill CTCs and primary tumor cells to prevent metastasis and enhance the therapeutic effect on hepatocellular carcinoma.

預(yù)防轉(zhuǎn)移。在劉勇軍、張娜及其同事的第 2101472 號(hào)文章中，提出了一種“根與種子”多點(diǎn)協(xié)同策略來(lái)消除原發(fā)性腫瘤和相關(guān)循環(huán)腫瘤細(xì)胞 (CTC)。多點(diǎn)共刺納米器件可以特異性捕獲CTC，解離CTC簇，阻斷CTC-中性粒細(xì)胞簇的形成，最終殺死CTC和原發(fā)腫瘤細(xì)胞，防止轉(zhuǎn)移，增強(qiáng)對(duì)肝細(xì)胞癌的治療效果。

97.Stable Cu Catalysts. In article number 2104972, Binhang Yan, Wei Sun, and co-workers design a stable Cu/2DSiO2 catalyst with strong metal–support interaction for high-temperature CO2 reduction. The “beads-in-a-book” structure is derived through growth of Cu between 2D Si nanosheets. The authors believe that this work could stimulate more interest in constructing stable metal catalysts with 2DSiO2.

穩(wěn)定的銅催化劑。在文章編號(hào) 2104972 中，Binhang Yan、Wei Sun 和同事設(shè)計(jì)了一種穩(wěn)定的 Cu/2DSiO2 催化劑，具有強(qiáng)金屬-載體相互作用，用于高溫 CO2 還原。?“書中的珠子”結(jié)構(gòu)是通過(guò)在 2D Si 納米片之間生長(zhǎng) Cu 得到的。作者相信這項(xiàng)工作可以激發(fā)人們對(duì)用 2DSiO2 構(gòu)建穩(wěn)定金屬催化劑的更多興趣。

98.Small Extracellular Vesicles. In colorectal cancer (CRC) tissues, tumor cell-derived small extracellular vesicles (sEVs) miR-21-5p and miR-200a synergistically induce macrophage M2 like polarization and PD-L1 expression by regulating the PTEN/AKT and SCOS1/STAT1 pathways, resulting in decreased CD8+ T cell activity and increased tumor growth. More details can be found in article number 202102620 by Shenglin Huang, Zhaohui Huang, and co-workers.

小細(xì)胞外囊泡。在結(jié)直腸癌（CRC）組織中，腫瘤細(xì)胞來(lái)源的小細(xì)胞外囊泡（sEV）miR-21-5p和miR-200a通過(guò)調(diào)節(jié)PTEN/AKT和SCOS1/STAT1通路協(xié)同誘導(dǎo)巨噬細(xì)胞M2樣極化和PD-L1表達(dá)，導(dǎo)致 CD8+ T 細(xì)胞活性降低并增加腫瘤生長(zhǎng)。更多詳細(xì)信息，請(qǐng)參閱Shenglin Huang、Zhaohui Huang 及其同事撰寫的文章（編號(hào)為 202102620）。

99.Self-Powered Artificial Mechanoreceptors. In article number 2105076 by Yang-Kyu Choi and co-workers, a self-powered artificial mechanoreceptor module composed of a triboelectric nanogenerator (TENG) and biristor neuron is demonstrated for a neuromorphic tactile system. It can generate electrical spike signals depending on the applied pressure, which is a typical property of the mechanoreceptor on the skin. Therefore, it can act as an input neuron in a neuromorphic tactile system.

自供電人工機(jī)械感受器。在 Yang-Kyu Choi 及其同事發(fā)表的第 2105076 篇文章中，展示了一種用于神經(jīng)形態(tài)觸覺(jué)系統(tǒng)的自供電人工機(jī)械感受器模塊，該模塊由摩擦納米發(fā)電機(jī) (TENG) 和雙臂神經(jīng)元組成。它可以根據(jù)施加的壓力產(chǎn)生電尖峰信號(hào)，這是皮膚機(jī)械感受器的典型特性。因此，它可以充當(dāng)神經(jīng)形態(tài)觸覺(jué)系統(tǒng)中的輸入神經(jīng)元。

100.Broadband Photodetectors. In article number 2103429, Xiangang Luo and co-workers report a broadband photodetector utilizing GaTe after breaking through its bandgap limitation by self-driven O2 intercalation in air and further reveal its anisotropic nature of both intrinsic and extrinsic photoconductivity. This provides design strategies of 2D materials-based high performance broadband photodetectors for the exploration of the polarized state information.

寬帶光電探測(cè)器。在文章編號(hào) 2103429 中，Xiangang Luo 及其同事報(bào)告了一種利用 GaTe 的寬帶光電探測(cè)器，通過(guò)在空氣中自驅(qū)動(dòng) O2 嵌入突破了其帶隙限制，并進(jìn)一步揭示了其內(nèi)在和外在光電導(dǎo)性的各向異性本質(zhì)。這為探索偏振態(tài)信息提供了基于二維材料的高性能寬帶光電探測(cè)器的設(shè)計(jì)策略。

81.Atomic Chromium Coordinated Graphitic Carbon Nitride for Bioinspired Antibiofouling in Seawater.

用于海水中仿生抗菌防垢的原子鉻配位石墨碳氮化物。

82.Releasing the Bubbles: Nanotopographical Electrocatalyst Design for Efficient Photoelectrochemical Hydrogen Production in Microgravity Environment.

釋放氣泡：微重力環(huán)境下高效光電化學(xué)制氫的納米拓?fù)潆姶呋瘎┰O(shè)計(jì)。

83.A “Valve-Closing” Starvation Strategy for Amplification of Tumor-Specific Chemotherapy.

用于放大腫瘤特異性化療的“閥門關(guān)閉”饑餓策略。

84.Autonomous Visualization of Damage in Polymers by Metal-Free Polymerizations of Microencapsulated Activated Alkynes.

微膠囊活化炔烴的無(wú)金屬聚合對(duì)聚合物損傷的自主可視化。

85.Unraveling CoNiP?CoP2 3D-on-1D Hybrid Nanoarchitecture for Long-Lasting Electrochemical Hybrid Cells and Oxygen Evolution Reaction.

揭示 CoNiP-CoP2 3D-on-1D 混合納米結(jié)構(gòu)，用于持久電化學(xué)混合電池和析氧反應(yīng)。

86.Conjugated Mesopolymer Achieving 15% Efficiency Single-Junction Organic Solar Cells.

共軛介觀聚合物實(shí)現(xiàn) 15% 效率的單結(jié)有機(jī)太陽(yáng)能電池。

87.Evolution of Hierarchically Porous Nickel Alumina Catalysts Studied by X-Ray Ptychography.

通過(guò) X 射線疊層照相術(shù)研究分級(jí)多孔鎳氧化鋁催化劑的演變。

88.Bioinspired Fatty Acid Amide-Based Slippery Oleogels for Shear-Stable Lubrication.

基于仿生脂肪酸酰胺的光滑油凝膠，用于剪切穩(wěn)定潤(rùn)滑。

89.Perfluorocarbon Nanoemulsions Enhance Therapeutic siRNA Delivery in the Treatment of Pulmonary Fibrosis.

全氟化碳納米乳劑增強(qiáng)了治療肺纖維化的 siRNA 遞送。

90.PIWI-Interacting RNA HAAPIR Regulates Cardiomyocyte Death After Myocardial Infarction by Promoting NAT10-Mediated ac4C Acetylation of Tfec mRNA.

PIWI 相互作用 RNA HAAPIR 通過(guò)促進(jìn) NAT10 介導(dǎo)的 Tfec mRNA ac4C 乙?；瘉?lái)調(diào)節(jié)心肌梗塞后心肌細(xì)胞死亡。

91.Hybrid Cathode Interlayer Enables 17.4% Efficiency Binary Organic Solar Cells.

混合陰極中間層可實(shí)現(xiàn) 17.4% 的二元有機(jī)太陽(yáng)能電池效率。

92.In Situ Construction of Efficient Interface Layer with Lithiophilic Nanoseeds toward Dendrite-Free and Low N/P Ratio Li Metal Batteries.

使用親鋰納米種子原位構(gòu)建高效界面層，實(shí)現(xiàn)無(wú)枝晶和低 N/P 比的鋰金屬電池。

93.circVAMP3 Drives CAPRIN1 Phase Separation and Inhibits Hepatocellular Carcinoma by Suppressing c-Myc Translation.

circVAMP3 驅(qū)動(dòng) CAPRIN1 相分離并通過(guò)抑制 c-Myc 翻譯來(lái)抑制肝細(xì)胞癌。

94.Glass-Crystallized Luminescence Translucent Ceramics toward High-Performance Broadband NIR LEDs.

用于高性能寬帶近紅外 LED 的玻璃結(jié)晶發(fā)光半透明陶瓷。

95.Ultrathin and Efficient Organic Photovoltaics with Enhanced Air Stability by Suppression of Zinc Element Diffusion.

通過(guò)抑制鋅元素?cái)U(kuò)散增強(qiáng)空氣穩(wěn)定性的超薄高效有機(jī)光伏。

96.Metastasis Prevention. In article number 2101472 by Yongjun Liu, Na Zhang, and co-workers, a “roots and seeds” multipoint costriking strategy is proposed to eliminate primary tumors and associated-circulating tumor cells (CTCs). The multipoint costriking nanodevice could specifically capture CTCs, dissociate CTC clusters, block the formation of CTC-neutrophil clusters, and finally kill CTCs and primary tumor cells to prevent metastasis and enhance the therapeutic effect on hepatocellular carcinoma.

預(yù)防轉(zhuǎn)移。在劉勇軍、張娜及其同事的第 2101472 號(hào)文章中，提出了一種“根與種子”多點(diǎn)協(xié)同策略來(lái)消除原發(fā)性腫瘤和相關(guān)循環(huán)腫瘤細(xì)胞 (CTC)。多點(diǎn)共刺納米器件可以特異性捕獲CTC，解離CTC簇，阻斷CTC-中性粒細(xì)胞簇的形成，最終殺死CTC和原發(fā)腫瘤細(xì)胞，防止轉(zhuǎn)移，增強(qiáng)對(duì)肝細(xì)胞癌的治療效果。

97.Stable Cu Catalysts. In article number 2104972, Binhang Yan, Wei Sun, and co-workers design a stable Cu/2DSiO2 catalyst with strong metal–support interaction for high-temperature CO2 reduction. The “beads-in-a-book” structure is derived through growth of Cu between 2D Si nanosheets. The authors believe that this work could stimulate more interest in constructing stable metal catalysts with 2DSiO2.

穩(wěn)定的銅催化劑。在文章編號(hào) 2104972 中，Binhang Yan、Wei Sun 和同事設(shè)計(jì)了一種穩(wěn)定的 Cu/2DSiO2 催化劑，具有強(qiáng)金屬-載體相互作用，用于高溫 CO2 還原。?“書中的珠子”結(jié)構(gòu)是通過(guò)在 2D Si 納米片之間生長(zhǎng) Cu 得到的。作者相信這項(xiàng)工作可以激發(fā)人們對(duì)用 2DSiO2 構(gòu)建穩(wěn)定金屬催化劑的更多興趣。

98.Small Extracellular Vesicles. In colorectal cancer (CRC) tissues, tumor cell-derived small extracellular vesicles (sEVs) miR-21-5p and miR-200a synergistically induce macrophage M2 like polarization and PD-L1 expression by regulating the PTEN/AKT and SCOS1/STAT1 pathways, resulting in decreased CD8+ T cell activity and increased tumor growth. More details can be found in article number 202102620 by Shenglin Huang, Zhaohui Huang, and co-workers.

小細(xì)胞外囊泡。在結(jié)直腸癌（CRC）組織中，腫瘤細(xì)胞來(lái)源的小細(xì)胞外囊泡（sEV）miR-21-5p和miR-200a通過(guò)調(diào)節(jié)PTEN/AKT和SCOS1/STAT1通路協(xié)同誘導(dǎo)巨噬細(xì)胞M2樣極化和PD-L1表達(dá)，導(dǎo)致 CD8+ T 細(xì)胞活性降低并增加腫瘤生長(zhǎng)。更多詳細(xì)信息，請(qǐng)參閱Shenglin Huang、Zhaohui Huang 及其同事撰寫的文章（編號(hào)為 202102620）。

99.Self-Powered Artificial Mechanoreceptors. In article number 2105076 by Yang-Kyu Choi and co-workers, a self-powered artificial mechanoreceptor module composed of a triboelectric nanogenerator (TENG) and biristor neuron is demonstrated for a neuromorphic tactile system. It can generate electrical spike signals depending on the applied pressure, which is a typical property of the mechanoreceptor on the skin. Therefore, it can act as an input neuron in a neuromorphic tactile system.

自供電人工機(jī)械感受器。在 Yang-Kyu Choi 及其同事發(fā)表的第 2105076 篇文章中，展示了一種用于神經(jīng)形態(tài)觸覺(jué)系統(tǒng)的自供電人工機(jī)械感受器模塊，該模塊由摩擦納米發(fā)電機(jī) (TENG) 和雙臂神經(jīng)元組成。它可以根據(jù)施加的壓力產(chǎn)生電尖峰信號(hào)，這是皮膚機(jī)械感受器的典型特性。因此，它可以充當(dāng)神經(jīng)形態(tài)觸覺(jué)系統(tǒng)中的輸入神經(jīng)元。

100.Broadband Photodetectors. In article number 2103429, Xiangang Luo and co-workers report a broadband photodetector utilizing GaTe after breaking through its bandgap limitation by self-driven O2 intercalation in air and further reveal its anisotropic nature of both intrinsic and extrinsic photoconductivity. This provides design strategies of 2D materials-based high performance broadband photodetectors for the exploration of the polarized state information.

寬帶光電探測(cè)器。在文章編號(hào) 2103429 中，Xiangang Luo 及其同事報(bào)告了一種利用 GaTe 的寬帶光電探測(cè)器，通過(guò)在空氣中自驅(qū)動(dòng) O2 嵌入突破了其帶隙限制，并進(jìn)一步揭示了其內(nèi)在和外在光電導(dǎo)性的各向異性本質(zhì)。這為探索偏振態(tài)信息提供了基于二維材料的高性能寬帶光電探測(cè)器的設(shè)計(jì)策略。

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