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(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，其他領域如果出現(xiàn)翻譯錯誤請諒解。

1.Photoelectrocatalysis. Mimicking natural photosynthesis, emerging photoelectrocatalysis provides a promising way for CO2 conversion to value-added products. In article number 2203941 by Nianjun Yang, Guohua Zhao, and co-workers, five typical strategies for constructing biomimetic photoelectric functional interfaces are summarized focusing on CO2 adsorption, activation and conversion. The interfacial electron transfer and proton coupling are also discussed to clarify the possible reaction pathways.

光電催化。新興的光電催化模仿自然光合作用，為二氧化碳轉(zhuǎn)化為增值產(chǎn)品提供了一種有前景的方法。在楊念軍、趙國華及其同事的第2203941號文章中，總結了構建仿生光電功能界面的五種典型策略，重點關注二氧化碳的吸附、活化和轉(zhuǎn)化。還討論了界面電子轉(zhuǎn)移和質(zhì)子耦合，以闡明可能的反應途徑。

2.BNIP-2 Activation of Cellular Contractility. In article number 2202834 by Darren Chen Pei Wong, Pakorn Kanchanawong, Boon Chuan Low, and co-workers, the multifaceted roles of the scaffold protein, BNIP-2, are demonstrated to induce the expression of two cardiac markers, cTnT and Myl2, in H9c2 and hESC cells. During this process, BNIP-2 activation of contractility and scaffolding of LATS1 to Yes-associated protein (YAP) is required to inactivate YAP for cardiomyoblast differentiation.

BNIP-2 激活細胞收縮力。在 Darren Chen Pei Wong、Pakorn Kanchanawong、Boon Chuan Low 及其同事撰寫的第 2202834 篇文章中，支架蛋白 BNIP-2 的多方面作用被證明可以誘導兩種心臟標志物 cTnT 和 Myl2 的表達。H9c2 和 hESC 細胞。在此過程中，BNIP-2 激活收縮性和 LATS1 與 Yes 相關蛋白 (YAP) 的支架，是使 YAP 失活以進行心肌細胞分化所必需的。

3.Mechanism of Synthetic Retinoid Kills Cancer-Stem-Cell-Like Cells. In article number 2203173, Xing Cao, Ning Wang, Junwei Chen, and co-workers reveal the mechanism of synthetic retinoid WYC-209 overcomes the limitation of conventional anticancer drugs by inducing tension-abrogation mediated chromatin decondensation and DNA damage to kill cancer-stem-cell-like cell tumor repopulating cells. This finding provides a new perspective strategy of lowering cell tension and decondensing chromatin to enhance efficacy of anti-cancer drugs to abrogate metastasis of cancer stem cell like cells.

合成類視黃醇殺死癌癥干細胞樣細胞的機制。在文章編號2203173中，Xing Cao、Ning Wang、Junwei Chen及其同事揭示了合成類維生素A WYC-209通過誘導張力消除介導的染色質(zhì)解縮和DNA損傷來克服傳統(tǒng)抗癌藥物的局限性以殺死癌干細胞的機制-細胞樣細胞腫瘤再生細胞。這一發(fā)現(xiàn)提供了降低細胞張力和解凝結染色質(zhì)以增強抗癌藥物消除癌癥干細胞樣細胞轉(zhuǎn)移的功效的新視角策略。

4.Biomimetics. In article number 2202978, Tae-Heon Yang, Changhyun Pang, and co-workers report a highly adaptive soft microstructured switchable adhesion device, which is inspired by the geometric and material characteristics of the tiny denticles on the surface of an octopus sucker. Owing to the presence of artificial microdenticles, the adhesive device demonstrates effective transport on soft, curved objects with high roughness in dry and wet conditions.

仿生學。在第 2202978 號文章中，Tae-Heon Yang、Changhyun Pang 及其同事報告了一種高度自適應的軟微結構可切換粘附裝置，其靈感來自于章魚吸盤表面微小齒狀的幾何和材料特性。由于人造微齒的存在，該粘合裝置在干燥和潮濕條件下都能有效傳輸高粗糙度的柔軟彎曲物體。

5.Nanozyme Therapy. In article number 2202542, Yuanming Ouyang, Yun Qian, Cunyi Fan, and co-workers present a ceria nanozyme incorporated nanoporous scaffold with anisotropic and enhanced mechanical properties to explore a targeted energy-supporting repair strategy by rescuing mitochondrial function and remodeling microenvironment favoring endogenous regeneration.

納米酶療法。在文章編號 2202542 中，Yuanming Ouyang、Yun Qi、Cunyi Fan 及其同事提出了一種摻有二氧化鈰納米酶的納米多孔支架，具有各向異性和增強的機械性能，通過挽救線粒體功能和重塑有利于內(nèi)源再生的微環(huán)境來探索有針對性的能量支持修復策略。

6.Smart Masks. In article number 2203565 by Ho-yin Chan, Xinge Yu, Jianping Wang, Wen Jung Li, and co-workers, a “smart mask” is developed by using an ultrathin nanocomposite-based soundwave sensor with high sensitivity and wide-bandwidth dynamic range, i.e., integrated with machine/deep learning algorithms, the smart mask can identify breath, two-/tri-phase coughs, and spoken words directly. The smart mask could be a new wearable Internet of Things device for personal health monitoring and respiratory disease identification tool in the future.

智能口罩。在 Ho-yin Chan、Xinge Yu、Jianping Wang、Wen Jung Li 及其同事的文章編號 2203565 中，通過使用具有高靈敏度和寬帶寬動態(tài)范圍的超薄納米復合材料聲波傳感器開發(fā)了一種“智能面罩”即集成機器/深度學習算法，智能口罩可以直接識別呼吸、二相/三相咳嗽、口語。智能口罩未來可能成為一種新型可穿戴物聯(lián)網(wǎng)設備，用于個人健康監(jiān)測和呼吸道疾病識別工具。

7.Floating-Gate Free Transistors. In article number 2203025, Yu-Ting Yang, Wen-Ya Lee, Chu-Chen Chueh, and co-workers reveal a floating-gate-free transistor based on the ambipolar diketopyrrolopyrrole-based conjugated polymers. The correlations between the channel's ambipolarity, memory characteristics, and synaptic behaviors are systematically investigated. The μh/μe mobility ratio is critical for controlling device characteristics from nonvolatile memory to artificial synapses.

無浮柵晶體管。在第 2203025 號文章中，Yu-Ting Yang、Wen-Ya Lee、Chu-Chen Chueh 及其同事揭示了一種基于雙極性二酮吡咯并吡咯共軛聚合物的無浮柵晶體管。系統(tǒng)地研究了通道的雙極性、記憶特征和突觸行為之間的相關性。μh/μe 遷移率對于控制從非易失性存儲器到人工突觸的器件特性至關重要。

8.Advances in Biomimetic Photoelectrocatalytic Reduction of Carbon Dioxide.

二氧化碳仿生光電催化還原研究進展。

9.Emerging Implications of Phase Separation in Cancer.

相分離對癌癥的新影響。

10.Smart Electronic Textile-Based Wearable Supercapacitors.

基于智能電子紡織品的可穿戴超級電容器。

11.BNIP-2 Activation of Cellular Contractility Inactivates YAP for H9c2 Cardiomyoblast Differentiation.

BNIP-2 激活細胞收縮性使 YAP 失活 H9c2 心肌細胞分化。

12.Synthetic Retinoid Kills Drug-Resistant Cancer Stem Cells via Inducing RARγ-Translocation-Mediated Tension Reduction and Chromatin Decondensation.

合成類視黃醇通過誘導 RARγ 易位介導的張力降低和染色質(zhì)解凝來殺死耐藥癌癥干細胞。

13.Soft Microdenticles on Artificial Octopus Sucker Enable Extraordinary Adaptability and Wet Adhesion on Diverse Nonflat Surfaces.

人造章魚吸盤上的柔軟微齒在各種非平坦表面上具有非凡的適應性和濕附著力。

14.Tuning Ambipolarity of the Conjugated Polymer Channel Layers of Floating-Gate Free Transistors: From Volatile Memories to Artificial Synapses.

調(diào)整無浮柵晶體管的共軛聚合物通道層的雙極性：從易失性存儲器到人工突觸。

15.Enhancing Horizontal Ratio of Transition Dipole Moment in Homoleptic Ir Complexes for High Outcoupling Efficiency of Organic Light-Emitting Diodes.

提高均配 Ir 配合物中躍遷偶極矩的水平比以實現(xiàn)有機發(fā)光二極管的高耦合效率。

16.Tuning Fe Spin Moment in Fe–N–C Catalysts to Climb the Activity Volcano via a Local Geometric Distortion Strategy.

通過局部幾何變形策略調(diào)整 Fe-N-C 催化劑中的 Fe 自旋力矩以攀爬活動火山。

17.Patient-Derived Organoids from Colorectal Cancer with Paired Liver Metastasis Reveal Tumor Heterogeneity and Predict Response to Chemotherapy.

來自患有配對肝轉(zhuǎn)移的結直腸癌患者的類器官揭示了腫瘤異質(zhì)性并預測對化療的反應。

18.Injection Molding of Magnesium Aluminate Spinel Nanocomposites for High-Throughput Manufacturing of Transparent Ceramics.

用于高通量制造透明陶瓷的鎂鋁尖晶石納米復合材料注射成型。

19.Chloroplast-inspired Scaffold for Infected Bone Defect Therapy: Towards Stable Photothermal Properties and Self-Defensive Functionality.

用于感染骨缺損治療的葉綠體支架：實現(xiàn)穩(wěn)定的光熱性能和自我防御功能。

20.Ultra-Narrow Phosphorene Nanoribbons Produced by Facile Electrochemical Process.

通過簡便的電化學工藝生產(chǎn)的超窄磷烯納米帶。

21.Carrier Multiplication in Transition Metal Dichalcogenides Beyond Threshold Limit.

過渡金屬二硫化物中的載流子倍增超出閾值限制。

22.Charge-Compensated N-Doped π-Conjugated Polymers: Toward both Thermodynamic Stability of N-Doped States in Water and High Electron Conductivity.

電荷補償 N 摻雜 π 共軛聚合物：實現(xiàn) N 摻雜態(tài)在水中的熱力學穩(wěn)定性和高電子電導率。

23.Organic–Inorganic Hybrid Cuprous-Based Metal Halides for Warm White Light-Emitting Diodes.

用于暖白光發(fā)光二極管的有機-無機混合亞銅基金屬鹵化物。

24.Liquid Metal-Elastomer Composites with Dual-Energy Transmission Mode for Multifunctional Miniature Untethered Magnetic Robots.

用于多功能微型無線磁性機器人的雙能傳輸模式液態(tài)金屬彈性體復合材料。

25.Exploring Physics of Ferroelectric Domain Walls in Real Time: Deep Learning Enabled Scanning Probe Microscopy.

實時探索鐵電疇壁的物理現(xiàn)象：支持深度學習的掃描探針顯微鏡。

26.Single Photon Kilohertz Frame Rate Imaging of Neural Activity.

神經(jīng)活動的單光子千赫茲幀率成像。

27.Gold Nanoparticles Disrupt the IGFBP2/mTOR/PTEN Axis to Inhibit Ovarian Cancer Growth.

金納米顆粒破壞 IGFBP2/mTOR/PTEN 軸以抑制卵巢癌的生長。

28.Perivascular Stromal Cells Instruct Glioblastoma Invasion, Proliferation, and Therapeutic Response within an Engineered Brain Perivascular Niche Model.

血管周圍基質(zhì)細胞在工程腦血管周圍微環(huán)境模型中指導膠質(zhì)母細胞瘤侵襲、增殖和治療反應。

29.Large Oncosome-Loaded VAPA Promotes Bone-Tropic Metastasis of Hepatocellular Carcinoma Via Formation of Osteoclastic Pre-Metastatic Niche.

負載大腫瘤的 VAPA 通過形成破骨細胞轉(zhuǎn)移前微環(huán)境促進肝細胞癌的骨向轉(zhuǎn)移。

30.A Noble AuPtAg-GOx Nanozyme for Synergistic Tumor Immunotherapy Induced by Starvation Therapy-Augmented Mild Photothermal Therapy.

一種用于饑餓療法增強溫和光熱療法誘導的協(xié)同腫瘤免疫療法的高貴 AuPtAg-GOx 納米酶。

31.Oxidation States Regulation of Cobalt Active Sites through Crystal Surface Engineering for Enhanced Polysulfide Conversion in Lithium–Sulfur Batteries.

通過晶體表面工程對鈷活性位點的氧化態(tài)調(diào)節(jié)以增強鋰硫電池中的多硫化物轉(zhuǎn)化。

32.High Figure-of-Merit Telluride-Based Flexible Thermoelectric Films through Interfacial Modification via Millisecond Photonic-Curing for Fully Printed Thermoelectric Generators.

通過毫秒光子固化進行界面改性，獲得高品質(zhì)因數(shù)的碲化物柔性熱電薄膜，用于全印刷熱電發(fā)電機。

33.Wireless-Powered Electrical Bandage Contact Lens for Facilitating Corneal Wound Healing.

無線供電的電動繃帶隱形眼鏡，促進角膜傷口愈合。

34.Schisandrin B Attenuates Diabetic Cardiomyopathy by Targeting MyD88 and Inhibiting MyD88-Dependent Inflammation.

五味子素 B 通過靶向 MyD88 并抑制 MyD88 依賴性炎癥來減輕糖尿病心肌病。

35.Transcript Engineered Extracellular Vesicles Alleviate Alloreactive Dynamics in Renal Transplantation.

轉(zhuǎn)錄工程細胞外囊泡減輕腎移植中的同種反應動力學。

36.An Approach to Developing Cyanines with Upconverted Photosensitive Efficiency Enhancement for Highly Efficient NIR Tumor Phototheranostics.

一種開發(fā)具有上轉(zhuǎn)換光敏效率增強的花青以實現(xiàn)高效近紅外腫瘤光治療的方法。

37.Efficient Myogenic/Adipogenic Transdifferentiation of Bovine Fibroblasts in a 3D Bioprinting System for Steak-Type Cultured Meat Production.

用于牛排型培養(yǎng)肉生產(chǎn)的 3D 生物打印系統(tǒng)中牛成纖維細胞的高效生肌/成脂轉(zhuǎn)分化。

38.Pressure Engineering Promising Transparent Oxides with Large Conductivity Enhancement and Strong Thermal Stability.

壓力工程有望實現(xiàn)導電率大幅提高和熱穩(wěn)定性強的透明氧化物。

39.Hijacking Self-Assembly to Establish Intracellular Functional Nanoparticles.

劫持自組裝來建立細胞內(nèi)功能納米顆粒。

40.Structural Color Medical Patch with Surface Dual-Properties of Wet Bioadhesion and Slipperiness.

具有濕生物粘附性和滑爽性表面雙重特性的結構彩色醫(yī)用貼片。

41.Coacervate-Derived Hydrogel with Effective Water Repulsion and Robust Underwater Bioadhesion Promotes Wound Healing.

凝聚層衍生的水凝膠具有有效的斥水性和強大的水下生物粘附力，可促進傷口愈合。

42.Recyclable Endogenous H2S Activation of Self-Assembled Nanoprobe with Controllable Biodegradation for Synergistically Enhanced Colon Cancer-Specific Therapy.

自組裝納米探針的可回收內(nèi)源 H2S 激活與可控生物降解，用于協(xié)同增強結腸癌特異性治療。

43.Ultrahigh Energy Storage Density in Glassy Ferroelectric Thin Films under Low Electric Field.

低電場下玻璃態(tài)鐵電薄膜的超高儲能密度。

44.Lung Microbiota. The lungs were previously considered sterile, however high-throughput metagenomic sequencing of bronchia-alveolar lavage fluid samples has identified the presence of commensal microorganisms. In article number 2203115, Jingxiang Zhang, Guo-Bao Tian, Tao Ding, and co-workers have found that differential input from oral bacteria determines the specific composition of the lung microbiota. They identified two different microbiota pneumo-types and found that a high oral input type of lung microbiota was associated with higher levels of inflammatory cytokines and poorer clinical indices. This study again calls our attention to the impact of oral microbiota on human respiratory health.

肺微生物群。肺部以前被認為是無菌的，但支氣管肺泡灌洗液樣本的高通量宏基因組測序已經(jīng)確定了共生微生物的存在。在第 2203115 號文章中，Jingxiang Zhang、Guo-Bao Tian、Tao Ding 及其同事發(fā)現(xiàn)，口腔細菌的差異輸入決定了肺部微生物群的具體組成。他們確定了兩種不同的微生物群肺炎類型，并發(fā)現(xiàn)高口服輸入類型的肺微生物群與較高水平的炎癥細胞因子和較差的臨床指數(shù)相關。這項研究再次引起我們對口腔微生物群對人類呼吸系統(tǒng)健康影響的關注。

45.Chemotherapy. Chemotherapy, such as doxorubicin, prolongs the life span of cancer patients but can also bring undesirable side effects, including cardiotoxicity. In article number 2203505, Jinchao Zhang, Ke Cheng, Zhenhua Li, and co-workers employ tetrahedral DNA engineered exosomes as decoys to remove excessive doxorubicin and mitigate cardiotoxicity, without affecting the anti-cancer effects of doxorubicin.

化療。阿霉素等化療可以延長癌癥患者的壽命，但也會帶來不良副作用，包括心臟毒性。在第 2203505 號文章中，Jinchao Zhu、Ke Cheng、Zhenhua Li 及其同事利用四面體 DNA 工程外泌體作為誘餌，去除過量的阿霉素并減輕心臟毒性，而不影響阿霉素的抗癌作用。

46.Interferometric Scattering Microscopy. Rayleigh scattering of the nanoparticles can be engineered by doping lanthanide ions, which is based on the enhanced polarizability of the nanoparticles when the excitation wavelength matches the ion resonance frequency of the lanthanide ions. More details can be found in article number 2203354 by Baolei Liu, Chaohao Chen, Xiaoxue Xu, Fan Wang, and co-workers.

干涉散射顯微鏡。納米顆粒的瑞利散射可以通過摻雜稀土離子來設計，這是基于當激發(fā)波長與稀土離子的離子共振頻率匹配時納米顆粒的極化性增強。更多詳細信息，請參閱 Baolei Liu、Chaohao Chen、Xiaoxue Xu、Fan Wang 及其同事撰寫的文章（編號 2203354）。

47.Charcot-Marie-Tooth Disease. Charcot-Marie-Tooth (CMT) disease – the most prevalent inherited peripheral neuropathy worldwide – currently lacks an approved treatment, as the biochemical interventions attempted have remained unsuccessful. In article number 2201358, Minseok S. Kim and co-workers introduce a paradigm-shifting biophysical treatment for CMT disease based on electroceuticals. The optimal electrical stimulation condition improves peripheral myelination by inducing a dynamic recovery in the distribution of key biomolecular constituents of myelin, thus restoring the myelin membrane integrity.

腓骨肌萎縮癥。腓骨肌萎縮癥 (CMT) 是全球最常見的遺傳性周圍神經(jīng)病，目前缺乏經(jīng)批準的治療方法，因為嘗試的生化干預措施仍未成功。在第 2201358 號文章中，Minseok S. Kim 及其同事介紹了一種基于電藥的 CMT 疾病的范式轉(zhuǎn)換生物物理治療方法。最佳的電刺激條件通過誘導髓磷脂關鍵生物分子成分分布的動態(tài)恢復來改善外周髓鞘形成，從而恢復髓磷脂膜的完整性。

48.Differential Oral Microbial Input Determines Two Microbiota Pneumo-Types Associated with Health Status.

口腔微生物輸入的差異決定了與健康狀況相關的兩種微生物群肺炎類型。

49.Decoy Exosomes Offer Protection Against Chemotherapy-Induced Toxicity.

誘餌外泌體可針對化療引起的毒性提供保護。

50.Lanthanide Ion Resonance-Driven Rayleigh Scattering of Nanoparticles for Dual-Modality Interferometric Scattering Microscopy.

用于雙模態(tài)干涉散射顯微鏡的稀土離子共振驅(qū)動的納米顆粒瑞利散射。

51.Implantable Electroceutical Approach Improves Myelination by Restoring Membrane Integrity in a Mouse Model of Peripheral Demyelinating Neuropathy.

植入式電療法通過恢復周圍脫髓鞘神經(jīng)病小鼠模型的膜完整性來改善髓鞘形成。

52.Revealing the Electrophilic-Attack Doping Mechanism for Efficient and Universal p-Doping of Organic Semiconductors.

揭示有機半導體高效通用 p 摻雜的親電攻擊摻雜機制。

53.Multiplying the Stable Electrostatic Field of Electret Based on the Heterocharge-Synergy and Superposition Effect.

基于異質(zhì)電荷協(xié)同和疊加效應的駐極體穩(wěn)定靜電場倍增。

54.Electro-Microfluidic Assembly Platform for Manipulating Colloidal Structures inside Water-in-Oil Emulsion Droplets.

用于操縱油包水乳液液滴內(nèi)的膠體結構的電微流體組裝平臺。

55.2+δ-Dimensional Materials via Atomistic Z-Welding.

通過原子 Z 焊接的 2+δ 維材料。

56.Photoluminescence Intensity Enhancement in Tin Halide Perovskites.

鹵化錫鈣鈦礦的光致發(fā)光強度增強。

57.Quantitative and Real-Time Evaluation of Human Respiration Signals with a Shape-Conformal Wireless Sensing System.

使用形狀共形無線傳感系統(tǒng)對人體呼吸信號進行定量和實時評估。

58.Porous-Structure-Promoted Tribo-Induced High-Performance Self-Powered Tactile Sensor toward Remote Human-Machine Interaction.

多孔結構促進摩擦引起的高性能自供電觸覺傳感器實現(xiàn)遠程人機交互。

59.Systemic Delivery of mPEG-Masked Trispecific T-Cell Nanoengagers in Synergy with STING Agonists Overcomes Immunotherapy Resistance in TNBC and Generates a Vaccination Effect.

mPEG 掩蔽的三特異性 T 細胞納米接合劑與 STING 激動劑協(xié)同作用的系統(tǒng)遞送克服了 TNBC 中的免疫治療耐藥性并產(chǎn)生疫苗接種效果。

60.Materials Genomics Search for Possible Helium-Absorbing Nano-Phases in Fusion Structural Materials.

材料基因組學在聚變結構材料中尋找可能的氦吸收納米相。

61.Ti3C2TxMXene Composite 3D Hydrogel Potentiates mTOR Signaling to Promote the Generation of Functional Hair Cells in Cochlea Organoids.

Ti3C2TxMXene 復合 3D 水凝膠增強 mTOR 信號傳導，促進耳蝸類器官中功能性毛細胞的生成。

62.Diamagnetic Composites for High-Q Levitating Resonators.

用于高 Q 值懸浮諧振器的抗磁性復合材料。

63.Hydrothermally Grown Dual-Phase Heterogeneous Electrocatalysts for Highly Efficient Rechargeable Metal-Air Batteries with Long-Term Stability.

水熱生長的雙相多相電催化劑，用于具有長期穩(wěn)定性的高效可充電金屬-空氣電池。

64.Kirigami-Inspired Programmable Soft Magnetoresponsive Actuators with Versatile Morphing Modes.

具有多功能變形模式的受剪紙啟發(fā)的可編程軟磁響應執(zhí)行器。

65.Small Molecule Based Organic Photo Signal Receiver for High-Speed Optical Wireless Communications.

用于高速光學無線通信的小分子有機光信號接收器。

66.Overcharge-Induced Phase Heterogeneity and Resultant Twin-Like Layer Deformation in Lithium Cobalt Oxide Cathode for Lithium-Ion Batteries.

鋰離子電池鋰鈷氧化物陰極中過充電引起的相異質(zhì)性和由此產(chǎn)生的孿生層變形。

67.Mechanically Robust Hydrogels Facilitating Bone Regeneration through Epigenetic Modulation.

機械堅固的水凝膠通過表觀遺傳調(diào)節(jié)促進骨再生。

68.Unveiling Local Electronic Structure of Lanthanide-Doped Cs2NaInCl6 Double Perovskites for Realizing Efficient Near-Infrared Luminescence.

揭示稀土摻雜 Cs2NaInCl6 雙鈣鈦礦的局域電子結構，以實現(xiàn)高效的近紅外發(fā)光。

69.Chemo-Mechanical Energy Harvesters with Enhanced Intrinsic Electrochemical Capacitance in Carbon Nanotube Yarns.

碳納米管紗線中具有增強本征電化學電容的化學機械能量收集器。

70.Kinetic Control of Ultrafast Transient Liquid Assisted Growth of Solution-Derived YBa2Cu3O7-x Superconducting Films.

超快瞬態(tài)液體的動力學控制輔助溶液衍生 YBa2Cu3O7-x 超導薄膜的生長。

71.Visualization of a Limonene Synthesis Metabolon Inside Living Bacteria by Hyperspectral SRS Microscopy.

通過高光譜 SRS 顯微鏡觀察活細菌內(nèi)檸檬烯合成代謝。

72.Intraparticle Double-Scattering-Decoded Sonogenetics for Augmenting Immune Checkpoint Blockade and CAR-T Therapy.

用于增強免疫檢查點封鎖和 CAR-T 療法的顆粒內(nèi)雙散射解碼聲遺傳學。

73.ε-Ga2O3: An Emerging Wide Bandgap Piezoelectric Semiconductor for Application in Radio Frequency Resonators.

ε-Ga2O3：一種新興的寬帶隙壓電半導體，適用于射頻諧振器。

74.Geometric Constraints Regulate Energy Metabolism and Cellular Contractility in Vascular Smooth Muscle Cells by Coordinating Mitochondrial DNA Methylation.

幾何約束通過協(xié)調(diào)線粒體 DNA 甲基化來調(diào)節(jié)血管平滑肌細胞的能量代謝和細胞收縮性。

75.All-Polymer Solar Cells with 17% Efficiency Enabled by the “End-Capped” Ternary Strategy.

“封端”三元策略實現(xiàn)效率達到 17% 的全聚合物太陽能電池。

76.Bubble-Channeling Electrophoresis of Honeycomb-Like Chitosan Composites.

蜂窩狀殼聚糖復合材料的氣泡通道電泳。

77.Self-Splittable Transcytosis Nanoraspberry for NIR-II Photo-Immunometabolic Cancer Therapy in Deep Tumor Tissue.

自分裂轉(zhuǎn)胞吞納米樹莓用于深部腫瘤組織中的 NIR-II 光免疫代謝癌癥治療。

78.N,S-Doped Porous Carbon Nanobelts Embedded with MoS2 Nanosheets as a Self-Standing Host for Dendrite-Free Li Metal Anodes.

嵌入 MoS2 納米片的 N,S 摻雜多孔碳納米帶作為無枝晶鋰金屬陽極的自立主體。

79.Thermal Runaway of Nonflammable Localized High-Concentration Electrolytes for Practical LiNi0.8Mn0.1Co0.1O2|Graphite-SiO Pouch Cells.

實用 LiNi0.8Mn0.1Co0.1O2|石墨-SiO 軟包電池的不可燃局部高濃度電解質(zhì)的熱失控。

80.Few-Atomic-Layered Co-Doped BiOBr Nanosheet: Free-Standing Anode with Ultrahigh Mass Loading for “Rocking Chair” Zinc-Ion Battery.

少原子層共摻雜 BiOBr 納米片：用于“搖椅”鋅離子電池的超高質(zhì)量負載的獨立式陽極。

81.One-Step Exfoliation Method for Plasmonic Activation of Large-Area 2D Crystals.

用于大面積二維晶體等離子體激活的一步剝離方法。

82.LCK-Mediated RIPK3 Activation Controls Double-Positive Thymocyte Proliferation and Restrains Thymic Lymphoma by Regulating the PP2A-ERK Axis.

LCK 介導的 RIPK3 激活通過調(diào)節(jié) PP2A-ERK 軸控制雙陽性胸腺細胞增殖并抑制胸腺淋巴瘤。

83.Synthetic Mucin Gels with Self-Healing Properties Augment Lubricity and Inhibit HIV-1 and HSV-2 Transmission.

具有自愈特性的合成粘蛋白凝膠可增強潤滑性并抑制 HIV-1 和 HSV-2 傳播。

84.Superanionic Solvent-Free Liquid Enzymes Exhibit Enhanced Structures and Activities.

超陰離子無溶劑液體酶表現(xiàn)出增強的結構和活性。

85.Energy Storage Devices. In article number 2203800, Yongmin Ko, Jinhan Cho and co-workers investigate fibril-type textile electrodes which exhibit extremely high areal capacity from chalcogenide nanoparticle assembly-driven pseudocapacitive electroplating process. Conductive and energy storage materials can be effectively introduced into 3D porous textiles by considering favorable interfacial interactions between each material. This approach plays a pivotal role in preparing high-performance energy storage devices.

儲能設備。在第 2203800 號文章中，Yongmin Ko、Jinhan Cho 及其同事研究了原纖維型紡織電極，該電極通過硫?qū)倩锛{米粒子組裝驅(qū)動的贗電容電鍍工藝表現(xiàn)出極高的面積容量。通過考慮每種材料之間有利的界面相互作用，可以將導電和儲能材料有效地引入 3D 多孔紡織品中。該方法在制備高性能儲能器件中發(fā)揮著關鍵作用。

86.Reconfigurable and Intelligent Metasurfaces. In article number 2203747 the recent progress of intelligent metasurfaces, focusing on tuning mechanisms, hardware designs, and applications, is presented. Yejun He and co-workers discuss the reconfigurable and programmable metasurfaces, classified as space-gradient, time-modulated, and space-time modulated metasurfaces. In addition, the authors provide an overview of the emerging research direction of reconfigurable intelligent surfaces.

可重構和智能超表面。文章編號 2203747 介紹了智能超表面的最新進展，重點關注調(diào)整機制、硬件設計和應用。Yejun He 和同事討論了可重構和可編程的超表面，分為空間梯度、時間調(diào)制和時空調(diào)制超表面。此外，作者還概述了可重構智能表面的新興研究方向。

87.Memristive Devices. Sketch of oxygen vacancy segregation toward a specific grain boundary in a hafnia (Hf) based memristor. The orange pillars correspond to atomic positions of Hf calculated based on transmission electron microscopy imaging. The water symbolizes oxygen vacancies attracted (through a waterfall) to the grain boundary region (canyon), which will then form the speedway (Autobahn) of the filamentary conductive current. More details can be found in article number 2201806 by Leopoldo Molina-Luna, Lambert Alff, and co-workers.

憶阻設備。氧化鉿 (Hf) 基憶阻器中氧空位偏向特定晶界的示意圖。橙色柱對應于基于透射電子顯微鏡成像計算的 Hf 原子位置。水象征著氧空位（通過瀑布）被吸引到晶界區(qū)域（峽谷），然后形成絲狀導電電流的高速公路（高速公路）。更多詳細信息，請參閱 Leopoldo Molina-Luna、Lambert Alff 及其同事撰寫的文章編號 2201806。

88.Reconfigurable Soft Robots. In article number 2203217, Mohamed G. B. Atia, Abdelkhalick Mohammad, and co-workers present a novel concept of soft building blocks that can be assembled and reconfigured to build different modular configurations of soft robots such as robotic fingers and continuum robots. To validate this approach, three case studies of bio-inspired designs are demonstrated (2D soft fingers, a legged robot and a 3D robotic elephant trunk).

可重構軟機器人。在第 2203217 號文章中，Mohamed GB Atia、Abdelkhalick Mohammad 及其同事提出了一種軟構件的新穎概念，可以組裝和重新配置該軟構件以構建軟機器人的不同模塊化配置，例如機器人手指和連續(xù)體機器人。為了驗證這種方法，演示了三個仿生設計案例研究（2D 軟手指、腿式機器人和 3D 機器人象鼻）。

89.Recent Progress in Reconfigurable and Intelligent Metasurfaces: A Comprehensive Review of Tuning Mechanisms, Hardware Designs, and Applications.

可重構和智能超表面的最新進展：調(diào)整機制、硬件設計和應用的全面回顧。

90.Modeling Interfacial Interaction between Gas Molecules and Semiconductor Metal Oxides: A New View Angle on Gas Sensing.

模擬氣體分子與半導體金屬氧化物之間的界面相互作用：氣體傳感的新視角。

91.Hygroscopic Porous Polymer for Sorption-Based Atmospheric Water Harvesting.

用于基于吸附的大氣水收集的吸濕性多孔聚合物。

92.Sn-Based Perovskite Halides for Electronic Devices.

用于電子設備的錫基鈣鈦礦鹵化物。

93.Fibril-Type Textile Electrodes Enabling Extremely High Areal Capacity through Pseudocapacitive Electroplating onto Chalcogenide Nanoparticle-Encapsulated Fibrils.

原纖維型紡織電極通過在硫?qū)倩锛{米粒子封裝的原纖維上進行贗電容電鍍來實現(xiàn)極高的面積容量。

94.Controlling the Formation of Conductive Pathways in Memristive Devices.

控制憶阻器件中導電通路的形成。

95.Reconfigurable Soft Robots by Building Blocks.

通過構建塊可重構軟機器人。

96.Nitrogen Balance on Ni–N–C Promotor for High-Energy Lithium-Sulfur Pouch Cells.

高能鋰硫軟包電池 Ni-N-C 啟動子上的氮平衡。

97.In-MOF-Derived Hierarchically Hollow Carbon Nanostraws for Advanced Zinc-Iodine Batteries.

用于先進鋅碘電池的 MOF 衍生的分層中空碳納米管。

98.Fatty Liver/Adipose Tissue Dual-Targeting Nanoparticles with Heme Oxygenase-1 Inducer for Amelioration of Obesity, Obesity-Induced Type 2 Diabetes, and Steatohepatitis.

含有血紅素加氧酶 1 誘導劑的脂肪肝/脂肪組織雙靶向納米顆?？筛纳品逝?、肥胖引起的 2 型糖尿病和脂肪性肝炎。

99.Induced Ferromagnetism in Epitaxial Uranium Dioxide Thin Films.

外延二氧化鈾薄膜中的感應鐵磁性。

100.Poly(thioctic acid): From Bottom-Up Self-Assembly to 3D-Fused Deposition Modeling Printing.

聚硫辛酸：從自下而上的自組裝到 3D 熔融沉積成型打印。

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