聲明：本專欄主要對生命科學(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)誤請諒解。

1.Origami Microwave Imaging Arrays. Shape morphing architectures when combined with antenna/radiating elements lead to dynamically reconfigurable platforms which could potentially enable joint communication-sensing radio frequency (RF) applications. In article number 2105016, Suresh Venkatesh and co-workers combine origami approaches along with broadband metasurfaces to demonstrate a scene adaptive microwave computational imaging system. Such electromagnetic-origami RF cameras open new avenues in intelligent and robust sensing and imaging systems.

折紙微波成像陣列。形狀變形架構(gòu)與天線/輻射元件結(jié)合形成動(dòng)態(tài)可重構(gòu)平臺(tái)，有可能實(shí)現(xiàn)聯(lián)合通信傳感射頻（RF）應(yīng)用。在第 2105016 號文章中，Suresh Venkatesh 和同事將折紙方法與寬帶超表面相結(jié)合，展示了場景自適應(yīng)微波計(jì)算成像系統(tǒng)。這種電磁折紙射頻相機(jī)為智能、穩(wěn)健的傳感和成像系統(tǒng)開辟了新的途徑。

2.All-Inorganic Perovskite/Organic Tandem Solar Cells. In article number 2200445, Aung Ko Ko Kyaw and co-workers report an organic solar cell with efficiency over 20% and VOC exceeding 2.1 V enabled by tandem with all-inorganic perovskite and a thermal annealing-free process which facilitates charge transport in the interconnecting layer.

全無機(jī)鈣鈦礦/有機(jī)串聯(lián)太陽能電池。在文章編號 2200445 中，Aung Ko Ko Kyaw 及其同事報(bào)告了一種有機(jī)太陽能電池，其效率超過 20%，VOC 超過 2.1 V，通過與全無機(jī)鈣鈦礦串聯(lián)和無熱退火工藝，促進(jìn)互連中的電荷傳輸層。

3.Hyperspectral Nanoimaging. A hyperspectral terahertz near field optical microscope comprising a miniaturized quantum cascade laser frequency comb, acting simultaneously as a source and as a detector is presented. Quantum nanomaterials and related collective mode excitations can be probed at the nanoscale. More details can be found in article number 2200410 by Miriam Serena Vitiello and co-workers.

高光譜納米成像。提出了一種高光譜太赫茲近場光學(xué)顯微鏡，包括小型化量子級聯(lián)激光頻率梳，同時(shí)充當(dāng)光源和探測器。量子納米材料和相關(guān)的集體模式激發(fā)可以在納米尺度上進(jìn)行探測。更多詳細(xì)信息，請參閱 Miriam Serena Vitiello 及其同事撰寫的文章編號 2200410。

4.Tandem Particle Swarm Optimization. In article number 2201648 by Kee-Sun Sohn, Myoungho Pyo, and co-workers, a two-step optimization algorithm (tandem particle swarm optimization) is applied to rapidly identify the optimal argyrodite with the highest attainable σion in a multidimensional search space involving a huge number of compositions and processing conditions. Each particle (bee) is searching for the best candidate by exchanging information through the social behavior. The identified argyrodite exhibits enhanced σion and improved stability against moisture and high voltage and, as an all-solid-state battery, would deliver higher capacities, particularly during fast charge–discharge cycles.

串聯(lián)粒子群優(yōu)化。在 Kee-Sun Sohn、Myoungho Pyo 及其同事撰寫的文章編號 2201648 中，應(yīng)用了兩步優(yōu)化算法（串聯(lián)粒子群優(yōu)化）來快速識(shí)別在涉及大量的成分和加工條件。每個(gè)粒子（蜜蜂）都通過社會(huì)行為交換信息來尋找最佳候選者。所鑒定的銀銀礦表現(xiàn)出增強(qiáng)的σ離子以及改進(jìn)的防潮和高電壓穩(wěn)定性，并且作為全固態(tài)電池，將提供更高的容量，特別是在快速充放電循環(huán)期間。

5.Early Organogenesis. In vitro culture of embryos is a useful tool to explore the mysteries of life. As the natural platform for embryo development, the uterus inspires the building of in vitro culture conditions. In article number 2202282 by Qi Gu, Hongmei Wang, Shutao Wang, and co-workers, particularly designed collagen is grafted onto polydimethylsiloxane to simulate the moduli of the endometrium and uterine horn and the microstructure of the endometrium during mouse pregnancy. The uterus-inspired niche microenvironment controls the migration and assembly of extraembryonic tissues, simulates embryo implantation, and ultimately promotes embryo development to early organogenesis.

早期器官發(fā)生。胚胎體外培養(yǎng)是探索生命奧秘的有用工具。子宮作為胚胎發(fā)育的天然平臺(tái)，激發(fā)了體外培養(yǎng)條件的建立。在Qi Gu、Hongmei Wang、Shutao Wang及其同事的第2202282號文章中，將特別設(shè)計(jì)的膠原蛋白接枝到聚二甲基硅氧烷上，以模擬小鼠懷孕期間子宮內(nèi)膜和子宮角的模量以及子宮內(nèi)膜的微觀結(jié)構(gòu)。受子宮啟發(fā)的生態(tài)位微環(huán)境控制胚胎外組織的遷移和組裝，模擬胚胎著床，最終促進(jìn)胚胎發(fā)育到早期器官發(fā)生。

6.Nanomedicine Strategies for Heating “Cold” Ovarian Cancer (OC): Next Evolution in Immunotherapy of OC.

加熱“冷”卵巢癌 (OC) 的納米醫(yī)學(xué)策略：OC 免疫療法的下一步發(fā)展。

7.Bio-Inspired Imprinting Materials for Biomedical Applications.

用于生物醫(yī)學(xué)應(yīng)用的仿生壓印材料。

8.Advances in Emerging Photonic Memristive and Memristive-Like Devices.

新興光子憶阻和類憶阻器件的進(jìn)展。

9.Fluid Field Modulation in Mass Transfer for Efficient Photocatalysis.

用于高效光催化的傳質(zhì)中的流體場調(diào)制。

10.Origami Microwave Imaging Array: Metasurface Tiles on a Shape-Morphing Surface for Reconfigurable Computational Imaging.

折紙微波成像陣列：形狀變形表面上的超表面瓷磚，用于可重構(gòu)計(jì)算成像。

11.Organic Solar Cell With Efficiency Over 20% and VOC Exceeding 2.1 V Enabled by Tandem With All-Inorganic Perovskite and Thermal Annealing-Free Process.

采用全無機(jī)鈣鈦礦和免熱退火工藝串聯(lián)而成的有機(jī)太陽能電池，效率超過 20%，VOC 超過 2.1 V。

12.Self-Induced Phase Locking of Terahertz Frequency Combs in a Phase-Sensitive Hyperspectral Near-Field Nanoscope.

相敏高光譜近場納米鏡中太赫茲頻率梳的自感鎖相。

13.Optimal Composition of Li Argyrodite with Harmonious Conductivity and Chemical/Electrochemical Stability: Fine-Tuned Via Tandem Particle Swarm Optimization.

具有和諧電導(dǎo)率和化學(xué)/電化學(xué)穩(wěn)定性的鋰銀礦的最佳組成：通過串聯(lián)粒子群優(yōu)化進(jìn)行微調(diào)。

14.A Uterus-Inspired Niche Drives Blastocyst Development to the Early Organogenesis.

受子宮啟發(fā)的生態(tài)位驅(qū)動(dòng)囊胚發(fā)育至早期器官發(fā)生。

15.Injectable Nanoparticle-Based Hydrogels Enable the Safe and Effective Deployment of Immunostimulatory CD40 Agonist Antibodies.

基于納米粒子的可注射水凝膠能夠安全有效地部署免疫刺激性 CD40 激動(dòng)劑抗體。

16.Nanodiamond–Quantum Sensors Reveal Temperature Variation Associated to Hippocampal Neurons Firing.

納米金剛石-量子傳感器揭示了與海馬神經(jīng)元放電相關(guān)的溫度變化。

17.Shrinking Fabrication of a Glucose-Responsive Glucagon Microneedle Patch.

葡萄糖響應(yīng)性胰高血糖素微針貼片的收縮制造。

18.Localizing Tungsten Single Atoms around Tungsten Nitride Nanoparticles for Efficient Oxygen Reduction Electrocatalysis in Metal–Air Batteries.

將鎢單原子定位在氮化鎢納米粒子周圍，用于金屬空氣電池中的高效氧還原電催化。

19.Genetically Engineered Hematopoietic Stem Cells Deliver TGF-β Inhibitor to Enhance Bone Metastases Immunotherapy.

基因工程造血干細(xì)胞傳遞 TGF-β 抑制劑以增強(qiáng)骨轉(zhuǎn)移免疫治療。

20.Two-Dimensional Covalent Heptazine-Based Framework Enables Highly Photocatalytic Performance for Overall Water Splitting.

二維共價(jià)庚嗪框架可實(shí)現(xiàn)整體水分解的高光催化性能。

21.Designing 3D Anode Based on Pore-Size-Dependent Li Deposition Behavior for Reversible Li-Free All-Solid-State Batteries.

基于孔徑依賴性鋰沉積行為的可逆無鋰全固態(tài)電池設(shè)計(jì) 3D 陽極。

22.Positively Charged Pt-Based Nanoreactor for Efficient and Stable Hydrogen Evolution.

帶正電荷的鉑基納米反應(yīng)器可實(shí)現(xiàn)高效穩(wěn)定的析氫。

23.A Bio-Based Supramolecular Adhesive: Ultra-High Adhesion Strengths at both Ambient and Cryogenic Temperatures and Excellent Multi-Reusability.

生物基超分子粘合劑：在常溫和低溫下均具有超高粘合強(qiáng)度，并且具有出色的多次重復(fù)使用性。

24.Pomegranate-Inspired Graphene Parcel Enables High-Performance Dendrite-Free Lithium Metal Anodes.

受石榴啟發(fā)的石墨烯包裹可實(shí)現(xiàn)高性能無枝晶鋰金屬陽極。

25.Automated Recognition of Plasmodium falciparum Parasites from Portable Blood Levitation Imaging.

通過便攜式血液懸浮成像自動(dòng)識(shí)別惡性瘧原蟲寄生蟲。

26.Mechanical Confinement and DDR1 Signaling Synergize to Regulate Collagen-Induced Apoptosis in Rhabdomyosarcoma Cells.

機(jī)械限制和 DDR1 信號傳導(dǎo)協(xié)同調(diào)節(jié)橫紋肌肉瘤細(xì)胞中膠原誘導(dǎo)的細(xì)胞凋亡。

27.De Novo Design of an Androgen Receptor DNA Binding Domain-Targeted peptide PROTAC for Prostate Cancer Therapy.

用于前列腺癌治療的雄激素受體 DNA 結(jié)合域靶向肽 PROTAC 的從頭設(shè)計(jì)。

28.Endothelial-Smooth Muscle Cell Interactions in a Shear-Exposed Intimal Hyperplasia on-a-Dish Model to Evaluate Therapeutic Strategies.

剪切暴露的內(nèi)膜增生培養(yǎng)皿模型中的內(nèi)皮-平滑肌細(xì)胞相互作用，以評估治療策略。

29.Pressure-Induced Metallization of Lead-Free Halide Double Perovskite (NH4)2PtI6.

無鉛鹵化物雙鈣鈦礦 (NH4)2PtI6 的壓力誘導(dǎo)金屬化。

30.Targeted Delivery of Chemo-Sonodynamic Therapy via Brain Targeting, Glutathione-Consumable Polymeric Nanoparticles for Effective Brain Cancer Treatment.

通過腦靶向、谷胱甘肽消耗性聚合物納米顆粒進(jìn)行化學(xué)聲動(dòng)力療法的靶向遞送，以有效治療腦癌。

31.Aberrant Cholesterol Metabolism and Wnt/β-Catenin Signaling Coalesce via Frizzled5 in Supporting Cancer Growth.

異常膽固醇代謝和 Wnt/β-連環(huán)蛋白信號通過 Frizzled5 結(jié)合以支持癌癥生長。

32.Gut Microbiome Analysis Can Be Used as a Noninvasive Diagnostic Tool and Plays an Essential Role in the Onset of Membranous Nephropathy.

腸道微生物組分析可作為一種無創(chuàng)診斷工具，在膜性腎病的發(fā)病中發(fā)揮重要作用。

33.APAF1-Binding Long Noncoding RNA Promotes Tumor Growth and Multidrug Resistance in Gastric Cancer by Blocking Apoptosome Assembly.

APAF1 結(jié)合長非編碼 RNA 通過阻斷凋亡體組裝促進(jìn)腫瘤生長和胃癌的多藥耐藥性。

34.Constructing Soft Perovskite–Substrate Interfaces for Dynamic Modulation of Perovskite Film in Inverted Solar Cells with Over 6200 Hours Photostability.

構(gòu)建軟鈣鈦礦-基底界面，用于動(dòng)態(tài)調(diào)制倒置太陽能電池中的鈣鈦礦薄膜，光穩(wěn)定性超過 6200 小時(shí)。

35.Hitherto Unknown Solvent and Anion Pairs in Solvation Structures Reveal New Insights into High-Performance Lithium-Ion Batteries.

溶劑化結(jié)構(gòu)中迄今為止未知的溶劑和陰離子對揭示了對高性能鋰離子電池的新見解。

36.Synthesis of Large-Area MXenes with High Yields through Power-Focused Delamination Utilizing Vortex Kinetic Energy.

利用渦旋動(dòng)能通過功率聚焦分層合成高產(chǎn)率的大面積 MXene。

37.Long-Duration and Non-Invasive Photoacoustic Imaging of Multiple Anatomical Structures in a Live Mouse Using a Single Contrast Agent.

使用單一造影劑對活體小鼠的多個(gè)解剖結(jié)構(gòu)進(jìn)行長時(shí)間、非侵入性光聲成像。

38.Formation and Control of Zero-Field Antiskyrmions in Confining Geometries.

限制幾何中零場反斯格明子的形成和控制。

39.Ultra-Low Concentration Electrolyte Enabling LiF-Rich SEI and Dense Plating/Stripping Processes for Lithium Metal Batteries.

超低濃度電解質(zhì)可實(shí)現(xiàn)鋰金屬電池的富含 LiF SEI 和密集電鍍/剝離工藝。

40.Self-Charging Persistent Mechanoluminescence with Mechanics Storage and Visualization Activities.

自充電持久機(jī)械發(fā)光與力學(xué)存儲(chǔ)和可視化活動(dòng)。

41.Adipocyte-Derived Exosomal MTTP Suppresses Ferroptosis and Promotes Chemoresistance in Colorectal Cancer.

脂肪細(xì)胞衍生的外泌體 MTTP 抑制鐵死亡并促進(jìn)結(jié)直腸癌的化療耐藥。

42.Periplasmic Bacterial Biomineralization of Copper Sulfide Nanoparticles.

硫化銅納米顆粒的周質(zhì)細(xì)菌生物礦化。

43.Wireless Non-Invasive Monitoring of Cholesterol Using a Smart Contact Lens.

使用智能隱形眼鏡對膽固醇進(jìn)行無線無創(chuàng)監(jiān)測。

44.Inducing Ectopic T Cell Clusters Using Stromal Vascular Fraction Spheroid-Based Immunotherapy to Enhance Anti-Tumor Immunity.

使用基于基質(zhì)血管分?jǐn)?shù)球體的免疫療法誘導(dǎo)異位 T 細(xì)胞簇，以增強(qiáng)抗腫瘤免疫力。

45.Immunotherapy. The FOXM1 inhibitor, thiostrepton, inhibits the expression of programmed death-ligand 1 (PD-L1) on the surface of cancer cells, allowing cytotoxic T cells to recognize cancer cells. Combination of thiostrepton and an immune checkpoint inhibitor significantly improves immunotherapy outcomes in immune-resistant lung tumors. More details can be found in article number 2202702 by Yongdoo Choi, Sung-Ho Goh, and co-workers.

免疫療法。FOXM1 抑制劑硫鏈絲菌肽可抑制癌細(xì)胞表面程序性死亡配體 1 (PD-L1) 的表達(dá)，從而使細(xì)胞毒性 T 細(xì)胞能夠識(shí)別癌細(xì)胞。硫鏈絲菌肽和免疫檢查點(diǎn)抑制劑的組合可顯著改善免疫抵抗性肺部腫瘤的免疫治療結(jié)果。更多詳細(xì)信息，請參閱 Yongdoo Choi、Sung-Ho Goh 及其同事撰寫的文章編號 2202702。

46.Functional Trachea Reconstruction. The development of a novel strategy for 3D bioprinting of trachea based on designable tissue-specific bioinks with chondrogenic and fibrogenic/angiogenic microenvironments, is reported in article number 2202181 by Yujie Hua, Yu Shrike Zhang, Guangdong Zhou, and co-workers. The 3D-bioprinted trachea-analogue successfully regenerates cartilage-vascularized fibrous tissue-alternant architecture with biomimetic mechanical and physiological characteristics close to those of the native trachea and realizes in situ functional trachea reconstruction.

功能性氣管重建。Yujie Hua、Yu Shrike 張、Guangdong Zhou 及其同事在第 2202181 號文章中報(bào)道了一種基于可設(shè)計(jì)的具有軟骨形成和纖維形成/血管生成微環(huán)境的組織特異性生物墨水的氣管 3D 生物打印新策略的開發(fā)。3D生物打印的氣管類似物成功地再生了軟骨血管纖維組織交替結(jié)構(gòu)，其仿生機(jī)械和生理特性接近天然氣管，并實(shí)現(xiàn)了原位功能性氣管重建。

47.Stretchable Organic Electrochemical Transistors. Stretchable organic electrochemical transistors (OECTs) provide a promising solution to develop the next-generation soft brain probes for a more reliable brain-machine interfacing. In article number 2203418, Shiming Zhang and co-workers introduce a universal approach to boost the performance of stretchable OECTs by controlling the oxygen-permeability of the elastic substrates. The resultant devices show comparable performance with their rigid counterparts.

可拉伸有機(jī)電化學(xué)晶體管。可拉伸有機(jī)電化學(xué)晶體管（OECT）為開發(fā)下一代軟腦探針提供了一種有前途的解決方案，以實(shí)現(xiàn)更可靠的腦機(jī)接口。在第 2203418 號文章中，Shiming Zhang 及其同事介紹了一種通過控制彈性基材的透氧性來提高可拉伸 OECT 性能的通用方法。由此產(chǎn)生的器件表現(xiàn)出與剛性器件相當(dāng)?shù)男阅堋?/p>

48.Necrobotics. In article number 2201174, Te Faye Yap, Daniel J. Preston, and co-workers introduce necrobotics, a new area of research that leverages the complex architectures of biotic materials to construct useful robotic components. A pneumatic gripper is fabricated in a single step from the inanimate body of a spider, taking advantage of its hydraulic mechanism for leg extension and allowing it to interface with traditional robotic systems.

壞死機(jī)器人。在第 2201174 號文章中，Te Faye Yap、Daniel J. Preston 及其同事介紹了壞死機(jī)器人，這是一個(gè)新的研究領(lǐng)域，利用生物材料的復(fù)雜結(jié)構(gòu)來構(gòu)建有用的機(jī)器人組件。氣動(dòng)夾具是用蜘蛛的無生命身體一步制成的，利用其液壓機(jī)構(gòu)進(jìn)行腿部伸展，并允許其與傳統(tǒng)的機(jī)器人系統(tǒng)連接。

49.CsPbBr3 Single Crystal. High pressure exerted on CsPbBr3 single crystal using diamond anvil cell leads to improved photoluminescence intensity due to the decreased dynamic Rashba splitting. Application of higher pressure transforms it into a pure indirect bandgap phase, which can be maintained at near-ambient pressure. These phenomena provide a novel framework to understand the optoelectronic properties of perovskite materials. More details can be found in article number 2201554 by Junbo Gong, Zengming Zhang, Xudong Xiao, and co-workers.

CsPbBr3 單晶。使用金剛石砧池對 CsPbBr3 單晶施加高壓，由于動(dòng)態(tài) Rashba 分裂減少，導(dǎo)致光致發(fā)光強(qiáng)度提高。施加較高壓力將其轉(zhuǎn)變?yōu)榧冮g接帶隙相，可以維持在接近環(huán)境壓力的狀態(tài)。這些現(xiàn)象為理解鈣鈦礦材料的光電特性提供了一個(gè)新的框架。更多詳細(xì)信息，請參閱 Junbo Kong、Zengming Zhang、Xudong Xiao 及其同事撰寫的文章，編號為 2201554。

50.Complex Emulsions to Multicavity Particles. In article number 2203265 by Naresh Yandrapalli and Markus Antonietti, complex emulsion maturation and its potential applications at every stage of their transformation into a multicavity particle are studied. Starting from the dewetted membranous emulsion with bulging eye-like compartments, “proptose emulsions” and their polymerized alternatives with applications in cargo transport to multicavity particles with structural colouring properties. These next-generation materials have far-reaching implications for the development of new structured functional materials.

復(fù)雜乳液到多腔顆粒。Naresh Yandrapalli 和 Markus Antonietti 在文章編號 2203265 中研究了復(fù)雜乳液的成熟及其在轉(zhuǎn)化為多腔顆粒的每個(gè)階段的潛在應(yīng)用。從具有凸出的眼狀隔室的去濕膜乳液開始，“原糖乳液”及其聚合替代品在貨物運(yùn)輸中的應(yīng)用到具有結(jié)構(gòu)著色特性的多腔顆粒。這些下一代材料對新型結(jié)構(gòu)功能材料的開發(fā)具有深遠(yuǎn)的影響。

51.Helical Polariton Lasing from Topological Valleys. In article number 2203588 by Qing Liao and co-workers, an organic anisotropic microcrystalline cavity is realized. Despite the structure's anisotropy it emits circularly polarized coherent light from topological valleys in the nontrivial polaritonic band structure. The concept is promising for the realization of future optoelectronic devices.

來自拓?fù)涔鹊穆菪龢O化子激光。在Qing Liao 及其同事的文章號2203588 中，實(shí)現(xiàn)了有機(jī)各向異性微晶腔。盡管該結(jié)構(gòu)具有各向異性，但它從非平凡的極化子能帶結(jié)構(gòu)中的拓?fù)涔劝l(fā)射圓偏振相干光。這一概念有望實(shí)現(xiàn)未來的光電器件。

52.Engineering Self-Powered Electrochemical Sensors Using Analyzed Liquid Sample as the Sole Energy Source.

使用分析的液體樣品作為唯一能源設(shè)計(jì)自供電電化學(xué)傳感器。

53.Progress on Polymer Dielectrics for Electrostatic Capacitors Application.

靜電電容器應(yīng)用聚合物電介質(zhì)的進(jìn)展。

54.Biofilms: Formation, Research Models, Potential Targets, and Methods for Prevention and Treatment.

生物膜：形成、研究模型、潛在目標(biāo)以及預(yù)防和治療方法。

55.Rational Nanomedicine Design Enhances Clinically Physical Treatment-Inspired or Combined Immunotherapy.

合理的納米醫(yī)學(xué)設(shè)計(jì)增強(qiáng)了臨床物理治療啟發(fā)或聯(lián)合免疫療法。

56.FOXM1 Inhibition Enhances the Therapeutic Outcome of Lung Cancer Immunotherapy by Modulating PD-L1 Expression and Cell Proliferation.

FOXM1 抑制通過調(diào)節(jié) PD-L1 表達(dá)和細(xì)胞增殖來增強(qiáng)肺癌免疫療法的治療效果。

57.Functional Trachea Reconstruction Using 3D-Bioprinted Native-Like Tissue Architecture Based on Designable Tissue-Specific Bioinks.

使用基于可設(shè)計(jì)的組織特異性生物墨水的 3D 生物打印類天然組織架構(gòu)進(jìn)行功能性氣管重建。

58.Intrinsically Stretchable Organic Electrochemical Transistors with Rigid-Device-Benchmarkable Performance.

具有剛性器件基準(zhǔn)性能的本質(zhì)可拉伸有機(jī)電化學(xué)晶體管。

59.Necrobotics: Biotic Materials as Ready-to-Use Actuators.

Necrobotics：作為即用型執(zhí)行器的生物材料。

60.Helical Polariton Lasing from Topological Valleys in an Organic Crystalline Microcavity.

有機(jī)晶體微腔中的拓?fù)涔劝l(fā)出螺旋極化子激光。

61.ER, Mitochondria, and ISR Regulation by mt-HSP70 and ATF5 upon Procollagen Misfolding in Osteoblasts.

mt-HSP70 和 ATF5 對成骨細(xì)胞中原膠原錯(cuò)誤折疊的 ER、線粒體和 ISR 調(diào)節(jié)。

62.Electrochemical Reduction of Nitric Oxide with 1.7% Solar-to-Ammonia Efficiency Over Nanostructured Core-Shell Catalyst at Low Overpotentials.

在低過電勢下，通過納米結(jié)構(gòu)核殼催化劑電化學(xué)還原一氧化氮，太陽能制氨效率為 1.7%。

63.Versatile Nano-PROTAC-Induced Epigenetic Reader Degradation for Efficient Lung Cancer Therapy.

多功能納米 PROTAC 誘導(dǎo)的表觀遺傳 Reader 降解，用于有效的肺癌治療。

64.Protein Binding Nanoparticles as an Integrated Platform for Cancer Diagnosis and Treatment.

蛋白質(zhì)結(jié)合納米顆粒作為癌癥診斷和治療的綜合平臺(tái)。

65.Debonding-On-Demand Polymeric Wound Patches for Minimal Adhesion and Clinical Communication.

按需脫粘聚合物傷口貼片，可實(shí)現(xiàn)最小程度的粘附和臨床溝通。

66.Pyroptosis Remodeling Tumor Microenvironment to Enhance Pancreatic Cancer Immunotherapy Driven by Membrane Anchoring Photosensitizer.

焦亡重塑腫瘤微環(huán)境以增強(qiáng)膜錨定光敏劑驅(qū)動(dòng)的胰腺癌免疫治療。

67.Influence of Elasticity of Hydrogel Nanoparticles on Their Tumor Delivery.

水凝膠納米顆粒的彈性對其腫瘤遞送的影響。

68.Ultrastrong Hybrid Fibers with Tunable Macromolecular Interfaces of Graphene Oxide and Carbon Nanotube for Multifunctional Applications.

具有可調(diào)節(jié)氧化石墨烯和碳納米管大分子界面的超強(qiáng)混合纖維，用于多功能應(yīng)用。

69.Single-Nucleus RNA Sequencing and Spatial Transcriptomics Reveal the Immunological Microenvironment of Cervical Squamous Cell Carcinoma.

單核 RNA 測序和空間轉(zhuǎn)錄組學(xué)揭示宮頸鱗狀細(xì)胞癌的免疫微環(huán)境。

70.Miniature Amphibious Robot Actuated by Rigid-Flexible Hybrid Vibration Modules.

由剛?cè)峄旌险駝?dòng)模塊驅(qū)動(dòng)的微型兩棲機(jī)器人。

71.Multi-Degree-of-Freedom Robots Powered and Controlled by Microwaves.

由微波供電和控制的多自由度機(jī)器人。

72.Plastic/Ductile Bulk 2D van der Waals Single-Crystalline SnSe2 for Flexible Thermoelectrics.

用于柔性熱電材料的塑料/延展塊狀 2D 范德華單晶 SnSe2。

73.Spatial Regulation of Acceptor Units in Olefin-Linked COFs toward Highly Efficient Photocatalytic H2 Evolution.

烯烴連接 COF 中受體單元的空間調(diào)控，實(shí)現(xiàn)高效光催化產(chǎn)氫。

74.Surface-Enforced Alignment of Reprogrammable Liquid Crystalline Elastomers.

可重編程液晶彈性體的表面強(qiáng)制排列。

75.Trip13 Depletion in Liver Cancer Induces a Lipogenic Response Contributing to Plin2-Dependent Mitotic Cell Death.

肝癌中 Trip13 的缺失會(huì)誘導(dǎo)脂肪生成反應(yīng)，從而導(dǎo)致 Plin2 依賴性有絲分裂細(xì)胞死亡。

76.Machine Learning-Based Lifetime Prediction of Lithium-Ion Cells.

基于機(jī)器學(xué)習(xí)的鋰離子電池壽命預(yù)測。

77.Extracellular Hydraulic Resistance Enhances Cell Migration.

細(xì)胞外液壓阻力增強(qiáng)細(xì)胞遷移。

78.High Velocity, Low-Voltage Collective In-Plane Switching in (100) BaTiO3 Thin Films.

(100) BaTiO3 薄膜中的高速、低壓集體面內(nèi)開關(guān)。

79.Amphiphilic Aminated Derivatives of [60]Fullerene as Potent Inhibitors of Tumor Growth and Metastasis.

[60]富勒烯的兩親胺化衍生物作為腫瘤生長和轉(zhuǎn)移的有效抑制劑。

80.Antihypertension Nanoblockers Increase Intratumoral Perfusion of Sequential Cytotoxic Nanoparticles to Enhance Chemotherapy Efficacy against Pancreatic Cancer.

抗高血壓納米阻滯劑可增加連續(xù)細(xì)胞毒性納米顆粒的瘤內(nèi)灌注，以增強(qiáng)針對胰腺癌的化療效果。

81.Metabolism-Based Molecular Subtyping Endows Effective Ketogenic Therapy in p53-Mutant Colon Cancer.

基于代謝的分子分型為 p53 突變結(jié)腸癌提供有效的生酮療法。

82.Blood-Lymphatic Integrated System with Heterogeneous Melanoma Spheroids via In-Bath Three-Dimensional Bioprinting for Modelling of Combinational Targeted Therapy.

通過浴內(nèi)三維生物打印的具有異質(zhì)黑色素瘤球體的血液-淋巴集成系統(tǒng)用于組合靶向治療的建模。

83.Chiral Nanoparticles Force Neural Stem Cell Differentiation to Alleviate Alzheimer's Disease.

手性納米顆粒迫使神經(jīng)干細(xì)胞分化以減輕阿爾茨海默病。

84.Machine Learning Reveals a General Understanding of Printability in Formulations Based on Rheology Additives.

機(jī)器學(xué)習(xí)揭示了對基于流變添加劑的配方的可印刷性的一般理解。

85.Multiomic Analysis of Neurons with Divergent Projection Patterns Identifies Novel Regulators of Axon Pathfinding.

具有不同投影模式的神經(jīng)元的多組學(xué)分析確定了軸突尋路的新型調(diào)節(jié)器。

86.Structural and Optical Properties of High Entropy (La,Lu,Y,Gd,Ce)AlO3 Perovskite Thin Films.

高熵 (La,Lu,Y,Gd,Ce)AlO3 鈣鈦礦薄膜的結(jié)構(gòu)和光學(xué)性質(zhì)。

87.New Deferric Amine Compounds Efficiently Chelate Excess Iron to Treat Iron Overload Disorders and to Prevent Ferroptosis.

新型去鐵胺化合物可有效螯合過量的鐵，以治療鐵過載疾病并預(yù)防鐵死亡。

88.Anchoring Vertical Dipole to Enable Efficient Charge Extraction for High-Performance Perovskite Solar Cells.

錨定垂直偶極子可實(shí)現(xiàn)高性能鈣鈦礦太陽能電池的高效電荷提取。

89.Modular Mass Diffusion Metamaterials. A metamaterial design with reconfigurable functions realized by pluggable functional modules is proposed. In article number 2201032, Yang Bai and co-workers demonstrate that ion cloak, ion concentrator, and ion selector can effectively manipulate the diffusion behaviors of ions in liquids solvents, which are expected to be widely used in applications such as catalytic enhancement and protein protection.

模塊化質(zhì)量擴(kuò)散超材料。提出了一種通過可插拔功能模塊實(shí)現(xiàn)可重構(gòu)功能的超材料設(shè)計(jì)。在第2201032號文章中，白楊及其同事證明離子斗篷、離子濃縮器和離子選擇器可以有效地操縱離子在液體溶劑中的擴(kuò)散行為，有望廣泛應(yīng)用于催化增強(qiáng)和蛋白質(zhì)保護(hù)等應(yīng)用。

90.Deformable Inorganic Semiconductors. In article number 2203776, Wei Zhang, En Ma, and co-workers achieve inorganic semiconductors that can be shaped via cold-rolling, advocating adequate fracture toughness in their design. The cracking-resistant van der Waals crystal, depicted here in the form of a highly deformed Mobius ribbon, is amenable to use in flexible thermoelectric, neuromorphic and optoelectronic devices.

可變形無機(jī)半導(dǎo)體。在文章編號 2203776 中，Wei Zhang、En Ma 和同事實(shí)現(xiàn)了可以通過冷軋成型的無機(jī)半導(dǎo)體，主張?jiān)谠O(shè)計(jì)中具有足夠的斷裂韌性。此處以高度變形的莫比烏斯帶的形式描繪的抗裂范德華晶體適合用于柔性熱電、神經(jīng)形態(tài)和光電設(shè)備。

91.Spintronic Neurons. Spintronic neuron hardware explorations arouse a new surge of breakthroughs in neuromorphic computing. The developed magnetic domain wall devices demonstrate biological neuron characteristics driven by the synergistic interaction between spin-orbit torque and built-in field in magnetic tunnel junctions, facilitating a new trajectory of time- and energy-efficient leaky-integrate-fire-self-reset neurons implementation. More information can be found in article number 2203006 by Guozhong Xing and co-workers.

自旋電子神經(jīng)元。自旋電子神經(jīng)元硬件探索引發(fā)了神經(jīng)形態(tài)計(jì)算領(lǐng)域新一輪的突破。所開發(fā)的磁疇壁器件展示了由自旋軌道扭矩與磁隧道結(jié)中的內(nèi)置場之間的協(xié)同相互作用驅(qū)動(dòng)的生物神經(jīng)元特性，促進(jìn)了時(shí)間和能量高效的泄漏-積分-激發(fā)-自復(fù)位的新軌跡神經(jīng)元的實(shí)現(xiàn)。更多信息可以在Guozhong Xing 及其同事的文章編號2203006 中找到。

92.Molecular Heterostructures. In article number 2202399, Takhee Lee, Gunuk Wang, and co-workers present recent advances to develop a wide spectrum of heterostructures in molecular junctions, as well as their prospects and applicability. Various types of two- and three-terminal molecular heterostructures and their novel electrical characteristics, along with their charge transport mechanisms are presented. In addition, the potential applicability, merits, and perspectives of molecular heterojunction structures, as well as the anticipated challenges and issues their implementation in electronic device applications are discussed.

分子異質(zhì)結(jié)構(gòu)。在第 2202399 號文章中，Takhee Lee、Gunuk Wang 及其同事介紹了在分子連接中開發(fā)各種異質(zhì)結(jié)構(gòu)的最新進(jìn)展及其前景和適用性。介紹了各種類型的二端和三端分子異質(zhì)結(jié)構(gòu)及其新穎的電特性，以及它們的電荷傳輸機(jī)制。此外，還討論了分子異質(zhì)結(jié)結(jié)構(gòu)的潛在適用性、優(yōu)點(diǎn)和前景，以及它們在電子器件應(yīng)用中實(shí)現(xiàn)的預(yù)期挑戰(zhàn)和問題。

93.Advances of Various Heterogeneous Structure Types in Molecular Junction Systems and Their Charge Transport Properties.

分子連接系統(tǒng)中各種異質(zhì)結(jié)構(gòu)類型及其電荷傳輸特性的進(jìn)展。

94.High Entropy van der Waals Materials.

高熵范德華材料。

95.Ultra-Thin Flexible Encapsulating Materials for Soft Bio-Integrated Electronics.

用于軟生物集成電子產(chǎn)品的超薄柔性封裝材料。

96.Assembly: A Key Enabler for the Construction of Superior Silicon-Based Anodes.

組裝：構(gòu)建優(yōu)質(zhì)硅基陽極的關(guān)鍵推動(dòng)因素。

97.Mass Diffusion Metamaterials with “Plug and Switch” Modules for Ion Cloaking, Concentrating, and Selection: Design and Experiments.

具有用于離子隱身、濃縮和選擇的“即插即用”模塊的質(zhì)量擴(kuò)散超材料：設(shè)計(jì)和實(shí)驗(yàn)。

98.Designing Inorganic Semiconductors with Cold-Rolling Processability.

設(shè)計(jì)具有冷軋加工性能的無機(jī)半導(dǎo)體。

99.Synergy of Spin-Orbit Torque and Built-In Field in Magnetic Tunnel Junctions with Tilted Magnetic Anisotropy: Toward Tunable and Reliable Spintronic Neurons.

自旋軌道扭矩和具有傾斜磁各向異性的磁隧道結(jié)中的內(nèi)置場的協(xié)同作用：走向可調(diào)諧和可靠的自旋電子神經(jīng)元。

100.Tonsillar Microbiome-Derived Lantibiotics Induce Structural Changes of IL-6 and IL-21 Receptors and Modulate Host Immunity.

扁桃體微生物組衍生的羊毛硫抗生素可誘導(dǎo) IL-6 和 IL-21 受體的結(jié)構(gòu)變化并調(diào)節(jié)宿主免疫。

========================================

由于專欄圖片數(shù)量限制，關(guān)注我的個(gè)人公眾號“遠(yuǎn)夢研”查看更多。