散文網(wǎng) » 科技 »自然 » 【標(biāo)題速讀】【AdFM】【2022年】【6月】

【標(biāo)題速讀】【AdFM】【2022年】【6月】

2023-08-09 22:09 作者:Rt_Cola 0人讀過(guò) | 我要投稿

聲明：本專(zhuān)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(zhuān)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.Neural Networks

In article number 2111996, Yi Li, Yuhui He, Xiangshui Miao, and co-workers propose a highly reliable V/VOx/HfWOx/Pt memristor, which delivers reconfigurable resistive and threshold switching. Both synaptic and nonpolar neuronal dynamics are demonstrated on the same device. A nonpolar spiking neural network with doubling coding capability is constructed based on the multifunctional device, while synaptic and neuronal hardware overheads are drastically reduced.

神經(jīng)網(wǎng)絡(luò)

在第 2111996 號(hào)文章中，Yi Li、Yuhui He、Xiangshui Miao 及其同事提出了一種高度可靠的 V/VOx/HfWOx/Pt 憶阻器，它提供可重新配置的電阻和閾值切換。突觸和非極性神經(jīng)元?jiǎng)恿W(xué)均在同一設(shè)備上演示。基于該多功能裝置構(gòu)建了具有加倍編碼能力的非極性尖峰神經(jīng)網(wǎng)絡(luò)，同時(shí)大大減少了突觸和神經(jīng)元的硬件開(kāi)銷(xiāo)。

2.Electronic Skin

In article number 2109109, Zhuo Li, Hao Wu, and co-workers adopt flexible mechanical metamaterials to enhance the performance of E-skin strain sensors. Based on the tactile perception data from the E-skin sensors, a generic approach for real-time detection of unstable robotic grasping is proposed. Accurate detections of unstable grasping in real-time demonstrate great promise for sensors and the detection approach in robotic perception and dexterous manipulation.

電子皮膚

在文章編號(hào) 2109109 中，Zhuo Li、Hao Wu 及其同事采用柔性機(jī)械超材料來(lái)增強(qiáng)電子皮膚應(yīng)變傳感器的性能?；陔娮悠つw傳感器的觸覺(jué)感知數(shù)據(jù)，提出了一種實(shí)時(shí)檢測(cè)不穩(wěn)定機(jī)器人抓取的通用方法。對(duì)不穩(wěn)定抓取的實(shí)時(shí)準(zhǔn)確檢測(cè)表明傳感器和檢測(cè)方法在機(jī)器人感知和靈巧操作方面具有巨大的前景。

3.Engineered Spider Silk Protein

In article number 2200986, Anna Rising and co-workers present the impressive strength of spider silk fibers conferred by poly-alanines in stacked β-sheets (steric zippers in pink). By protein engineering and expression in prokaryotic hosts, they have done what spiders cannot do: increase the hydrophobicity and intermolecular interactions of the steric zippers (turquoise) thereby generating stronger artificial spider silk.

工程蜘蛛絲蛋白

在文章編號(hào) 2200986 中，Anna Rising 及其同事展示了堆疊 β-折疊（粉色立體拉鏈）中的聚丙氨酸賦予蜘蛛絲纖維的令人印象深刻的強(qiáng)度。通過(guò)蛋白質(zhì)工程和在原核宿主中的表達(dá)，他們完成了蜘蛛無(wú)法做到的事情：增加空間拉鏈（綠松石色）的疏水性和分子間相互作用，從而產(chǎn)生更強(qiáng)的人造蜘蛛絲。

4.Nanoparticle Protective Coatings

In article number 2111829, Yuan Ma, Jürgen Janek, Torsten Brezesinski, and co-workers propose a new coating strategy for layered Ni-rich oxide cathode materials employing preformed (non-agglomerated) nanoparticles dispersed in a liquid solvent. This approach leads to much improved cycling performance and stability and holds promise for application in solid- and liquid-electrolyte based batteries.

納米顆粒保護(hù)涂層

在文章編號(hào) 2111829 中，Yuan Ma、Jürgen Janek、Torsten Brezesinski 及其同事提出了一種新的涂層策略，用于采用分散在液體溶劑中的預(yù)成型（非團(tuán)聚）納米顆粒的層狀富鎳氧化物陰極材料。這種方法大大提高了循環(huán)性能和穩(wěn)定性，并有望在固體和液體電解質(zhì)電池中應(yīng)用。

5.Bioinspired Perspiration Wicking

Inspired by the active liquid transport phenomenon in nature, in article number 2200961, Hao Wu, Zhuo Li, and co-workers develop a biomimetic Au/TPU/CM based e-skin with dual porosity and a surface energy gradient to unidirectionally drain sweat away from the skin, preventing signal degradation and wearing discomfort caused by perspiration accumulation.

仿生排汗

排汗受自然界中活躍液體傳輸現(xiàn)象的啟發(fā)，吳浩、卓力及其同事在文章編號(hào) 2200961 中開(kāi)發(fā)了一種基于仿生 Au/TPU/CM 的電子皮膚，具有雙孔隙率和單向表面能梯度將汗水從皮膚上排出，防止因汗水積聚而導(dǎo)致信號(hào)衰減和佩戴不適。

6.Emerging Materials and Designs for Low- and Multi-Band Electromagnetic Wave Absorbers: The Search for Dielectric and Magnetic Synergy?.

低頻帶和多頻帶電磁波吸收器的新興材料和設(shè)計(jì)：尋找介電和磁協(xié)同作用？。

7.Fast Charging Anode Materials for Lithium-Ion Batteries: Current Status and Perspectives.

鋰離子電池快速充電陽(yáng)極材料：現(xiàn)狀和前景。

8.Low-Dimensional Electrocatalysts for Acidic Oxygen Evolution: Intrinsic Activity, High Current Density Operation, and Long-Term Stability.

用于酸性析氧的低維電催化劑：固有活性、高電流密度操作和長(zhǎng)期穩(wěn)定性。

9.Advances in Organic and Perovskite Photovoltaics Enabling a Greener Internet of Things.

有機(jī)和鈣鈦礦光伏技術(shù)的進(jìn)步實(shí)現(xiàn)了更綠色的物聯(lián)網(wǎng)。

10.Toward the Rational Design of Mid-Infrared Nonlinear Optical Materials with Targeted Properties via a Multi-Level Data-Driven Approach.

通過(guò)多層次數(shù)據(jù)驅(qū)動(dòng)方法合理設(shè)計(jì)具有目標(biāo)性能的中紅外非線性光學(xué)材料。

11.Reconfigurable Synaptic and Neuronal Functions in a V/VOx/HfWOx/Pt Memristor for Nonpolar Spiking Convolutional Neural Network.

用于非極性尖峰卷積神經(jīng)網(wǎng)絡(luò)的 V/VOx/HfWOx/Pt 憶阻器中的可重構(gòu)突觸和神經(jīng)元功能。

12.Flexible Mechanical Metamaterials Enabled Electronic Skin for Real-Time Detection of Unstable Grasping in Robotic Manipulation.

柔性機(jī)械超材料使電子皮膚能夠?qū)崟r(shí)檢測(cè)機(jī)器人操作中的不穩(wěn)定抓取。

13.Engineered Spider Silk Proteins for Biomimetic Spinning of Fibers with Toughness Equal to Dragline Silks.

工程蜘蛛絲蛋白用于仿生紡絲纖維，其韌性與拉鏟絲相同。

14.Advanced Nanoparticle Coatings for Stabilizing Layered Ni-Rich Oxide Cathodes in Solid-State Batteries.

用于穩(wěn)定固態(tài)電池中層狀富鎳氧化物陰極的先進(jìn)納米顆粒涂層。

15.Bioinspired Perspiration-Wicking Electronic Skins for Comfortable and Reliable Multimodal Health Monitoring.

仿生吸汗電子皮膚可實(shí)現(xiàn)舒適可靠的多模式健康監(jiān)測(cè)。

16.Tribovoltaic Nanogenerators Based on MXene–Silicon Heterojunctions for Highly Stable Self-Powered Speed, Displacement, Tension, Oscillation Angle, and Vibration Sensors.

基于 MXene-硅異質(zhì)結(jié)的摩擦伏納米發(fā)電機(jī)，用于高度穩(wěn)定的自供電速度、位移、張力、振蕩角度和振動(dòng)傳感器。

17.An Electrically Conductive Oleogel Paste for Edible Electronics.

用于食用電子產(chǎn)品的導(dǎo)電油凝膠漿料。

18.Rational Design of Electrolyte Solvation Structures for Modulating 2e?/4e? Transfer in Sodium–Air Batteries.

鈉-空氣電池中調(diào)節(jié) 2e - /4e -轉(zhuǎn)移的電解質(zhì)溶劑化結(jié)構(gòu)的合理設(shè)計(jì)。

19.An Efficient Steam-Induced Heterostructured Air Electrode for Protonic Ceramic Electrochemical Cells.

用于質(zhì)子陶瓷電化學(xué)電池的高效蒸汽誘導(dǎo)異質(zhì)結(jié)構(gòu)空氣電極。

20.Electrochemical Thin-Film Transistors using Covalent Organic Framework Channel.

使用共價(jià)有機(jī)框架通道的電化學(xué)薄膜晶體管。

21.Constructing Interfacial Nanolayer Stabilizes 4.3 V High-Voltage All-Solid-State Lithium Batteries with PEO-Based Solid-State Electrolyte.

使用基于 PEO 的固態(tài)電解質(zhì)構(gòu)建界面納米層可穩(wěn)定 4.3 V 高壓全固態(tài)鋰電池。

22.A Core–Sheath Sensing Yarn-Based Electrochemical Fabric System for Powerful Sweat Capture and Stable Sensing.

基于紗線的芯鞘傳感電化學(xué)織物系統(tǒng)，可實(shí)現(xiàn)強(qiáng)大的汗水捕獲和穩(wěn)定的傳感。

23.Ultrafast, Light, Soft Martensitic Materials.

超快、輕質(zhì)、柔軟的馬氏體材料。

24.Ultrathin Ferrimagnetic GdFeCo Films with Low Damping.

低阻尼超薄亞鐵磁 GdFeCo 薄膜。

25.Novel FeF2/Fe1–xS Nanoreactor-Mediated Mitochondrial Dysfunction via Oxidative Stress and Fluoride Ions Overloaded for Synergistic Chemodynamic Therapy and Photothermal Therapy.

新型 FeF2/Fe1–xS 納米反應(yīng)器通過(guò)氧化應(yīng)激和氟離子超載介導(dǎo)的線粒體功能障礙，用于協(xié)同化學(xué)動(dòng)力療法和光熱療法。

26.High Thermoelectric Performance of CaMg2Bi2 Enabled by Dynamic Doping and Orbital Alignment.

通過(guò)動(dòng)態(tài)摻雜和軌道排列實(shí)現(xiàn) CaMg2Bi2 的高熱電性能。

27.Anion Immobilization Enabled by Cation-Selective Separators for Dendrite-Free Lithium Metal Batteries.

通過(guò)陽(yáng)離子選擇性分離器實(shí)現(xiàn)無(wú)枝晶鋰金屬電池的陰離子固定。

28.3D Printed High-Strength Supramolecular Polymer Hydrogel-Cushioned Radially and Circumferentially Oriented Meniscus Substitute.

3D 打印高強(qiáng)度超分子聚合物水凝膠緩沖徑向和周向彎月面替代品。

29.Photoacoustic Imaging-Guided Synergistic Photothermal/Radiotherapy Using Plasmonic Bi/Bi2O3?x Nanoparticles.

使用等離子 Bi/Bi2O3 ? x 納米顆粒的光聲成像引導(dǎo)協(xié)同光熱/放射治療。

30.Visualization of Sentinel Lymph Nodes with Mannosylated Fluorescent Nanodiamonds.

使用甘露糖化熒光納米金剛石對(duì)前哨淋巴結(jié)進(jìn)行可視化。

31.The Influence of Surface Chemistry on Critical Current Density for Garnet Electrolyte.

表面化學(xué)對(duì)石榴石電解質(zhì)臨界電流密度的影響。

32.Dendrites-Free Lithium Metal Anode Enabled by Synergistic Surface Structural Engineering.

由協(xié)同表面結(jié)構(gòu)工程實(shí)現(xiàn)的無(wú)枝晶鋰金屬陽(yáng)極。

33.Advanced Ultralow-Concentration Electrolyte for Wide-Temperature and High-Voltage Li-Metal Batteries.

適用于寬溫高電壓鋰金屬電池的先進(jìn)超低濃度電解液。

34.Realization of Coexisting Charge Density Wave and Quantum Spin/Anomalous Hall State in Monolayer NbTe2.

單層 NbTe2 中電荷密度波與量子自旋/反常霍爾態(tài)共存的實(shí)現(xiàn)。

35.Manipulating the Intermolecular Interactions through Side Chain Engineering and Unilateral π-Bridge Strategy for Efficient Small Molecular Photovoltaic Acceptor.

通過(guò)側(cè)鏈工程和單邊 π 橋策略操縱分子間相互作用，實(shí)現(xiàn)高效小分子光伏受體。

36.Surfactant-Inspired Coassembly Strategy to Integrate Aggregation-Induced Emission Photosensitizer with Organosilica Nanoparticles for Efficient Theranostics.

受表面活性劑啟發(fā)的共組裝策略，將聚集誘導(dǎo)發(fā)射光敏劑與有機(jī)二氧化硅納米粒子集成，以實(shí)現(xiàn)高效的治療診斷。

37.Hierarchical Therapeutic Ion-Based Microspheres with Precise Ratio-Controlled Delivery as Microscaffolds for In Situ Vascularized Bone Regeneration.

分層治療性離子基微球，具有精確比例控制的輸送，作為原位血管化骨再生的微支架。

38.Anomalous Thermal Decomposition Behavior of Polycrystalline LiNi0.8Mn0.1Co0.1O2 in PEO-Based Solid Polymer Electrolyte.

PEO基固體聚合物電解質(zhì)中多晶LiNi0.8Mn0.1Co0.1O2的反常熱分解行為。

39.Electron Redistributed S-Doped Nickel Iron Phosphides Derived from One-Step Phosphatization of MOFs for Significantly Boosting Electrochemical Water Splitting.

MOF一步磷酸化衍生的電子重新分布 S 摻雜鎳鐵磷化物可顯著促進(jìn)電化學(xué)水分解。

40.Synergistic Solvation and Interface Regulations of Eco-Friendly Silk Peptide Additive Enabling Stable Aqueous Zinc-Ion Batteries.

環(huán)保絲肽添加劑的協(xié)同溶劑化和界面調(diào)節(jié)，實(shí)現(xiàn)穩(wěn)定的水性鋅離子電池。

41.Latent Mechanisms of Polarization Switching from In Situ Electron Microscopy Observations.

原位電子顯微鏡觀察的偏振切換的潛在機(jī)制。

42.Mechanical Resilience of Biofilms toward Environmental Perturbations Mediated by Extracellular Matrix.

生物膜對(duì)細(xì)胞外基質(zhì)介導(dǎo)的環(huán)境擾動(dòng)的機(jī)械彈性。

43.The Fluorine-Rich Electrolyte as an Interface Modifier to Stabilize Lithium Metal Battery at Ultra-Low Temperature.

富氟電解質(zhì)作為界面改性劑，在超低溫下穩(wěn)定鋰金屬電池。

44.[LiCl2]? Superhalide: A New Charge Carrier for Graphite Cathode of Dual-Ion Batteries.

[LiCl2] -超級(jí)鹵化物：雙離子電池石墨陰極的新型電荷載體。

45.Oxygen-Rich Cobalt–Nitrogen–Carbon Porous Nanosheets for Bifunctional Oxygen Electrocatalysis.

用于雙功能氧電催化的富氧鈷-氮-碳多孔納米片。

46.Reactive Glycolysis Metabolite-Activatable Nanotheranostics for NIR-II Fluorescence Imaging-Guided Phototherapy of Cancer.

用于 NIR-II 熒光成像引導(dǎo)癌癥光療的反應(yīng)性糖酵解代謝物激活納米治療學(xué)。

47.The Role of Undercoordinated Sites on Zinc Electrodes for CO2 Reduction to CO.

鋅電極上欠配位位點(diǎn)對(duì) CO2 還原為 CO 的作用。

48.3D Bioprinting of Heterogeneous Constructs Providing Tissue-Specific Microenvironment Based on Host–Guest Modulated Dynamic Hydrogel Bioink for Osteochondral Regeneration.

異質(zhì)結(jié)構(gòu)的 3D 生物打印為骨軟骨再生提供基于主客體調(diào)制動(dòng)態(tài)水凝膠生物墨水的組織特異性微環(huán)境。

49.Paper-Structure Inspired Multiresponsive Hydrogels with Solvent-Induced Reversible Information Recording, Self-Encryption, and Multidecryption.

具有溶劑誘導(dǎo)可逆信息記錄、自加密和多重解密功能的紙結(jié)構(gòu)啟發(fā)多重響應(yīng)水凝膠。

50.Fullerene–Graphene Acceptor Drives Ultrafast Carrier Dynamics for Sustainable CdS Photocatalytic Hydrogen Evolution.

富勒烯-石墨烯受體驅(qū)動(dòng)超快載流子動(dòng)力學(xué)，實(shí)現(xiàn)可持續(xù)的 CdS 光催化析氫。

51.Thermal Camouflaging MXene Robotic Skin with Bio-Inspired Stimulus Sensation and Wireless Communication.

具有仿生刺激感覺(jué)和無(wú)線通信功能的熱偽裝 MXene 機(jī)器人皮膚。

52.Porous Nanofiber Membranes

In article number 2200463, Il-Doo Kim and co-workers develop highly sensitive thermochromic sensors using nanofiber (NF) membranes with tunable alignments of the NFs via a fine-tuned electric field during the electrospinning process. The porous NFs membrane-based sensors show highly sensitive thermochromic sensing performance at 31.6–42.7 °C. The developed NFs sensors membranes could be further integrated with masks, patches, and bracelets for wearable applications.

多孔納米纖維膜

在文章編號(hào) 2200463 中，Il-Doo Kim 及其同事使用納米纖維 (NF) 膜開(kāi)發(fā)了高度靈敏的熱致變色傳感器，并在靜電紡絲過(guò)程中通過(guò)微調(diào)電場(chǎng)可調(diào)節(jié) NF 的排列。基于多孔 NF 膜的傳感器在 31.6–42.7 °C 下表現(xiàn)出高度靈敏的熱致變色傳感性能。開(kāi)發(fā)的 NF 傳感器膜可以進(jìn)一步與面罩、貼片和手環(huán)集成，用于可穿戴應(yīng)用。

53.Semiconductor Nanoplatelet Stacks

In article number 2112621, Nadja C. Bigall and co-workers demonstrate a route to decrease the inter-nanoplatelet distance in polymer encapsulated cadmium chalcogenide nanoplatelet stacks. Thus, certain ligand exchanges are applied to minimize the distance by more than half in the case of CdSe nanoplatelets. Furthermore, the influence of the smaller distance on the charge carrier transfer is analysed by photo-electrochemical measurements.

半導(dǎo)體納米片疊層

在文章編號(hào) 2112621 中，Nadja C. Bigall 及其同事展示了一種減少聚合物封裝的鎘硫族化物納米片疊層中納米片間距離的途徑。因此，在 CdSe 納米片的情況下，應(yīng)用某些配體交換來(lái)將距離最小化一半以上。此外，通過(guò)光電化學(xué)測(cè)量分析了較小距離對(duì)載流子轉(zhuǎn)移的影響。

54.Solar-Blind Ultraviolet Photodetectors

In article number 2111673, Xiaosheng Fang, Zhongming Wei, Hua Xu, and co-workers fabricate a polarization sensitive solar-blind ultraviolet photodetector based on ultrathin KNb3O8 nanobelts synthesized via chemical vapor deposition growth. The device exhibits superior photodetection performance in the solar-blind ultraviolet region (230–280 nm) with high responsivity (30 A W?1) and large linear dichroic ratio (1.62).

日盲紫外光電探測(cè)器

在文章編號(hào) 2111673 中，Xiaosheng Fang、Zhongming Wei、Hua Xu 及其同事基于通過(guò)化學(xué)氣相沉積生長(zhǎng)合成的超薄 KNb3O8 納米帶制造了一種偏振敏感的日盲紫外光電探測(cè)器。該器件在日盲紫外區(qū)（230-280 nm）表現(xiàn)出優(yōu)異的光電探測(cè)性能，具有高響應(yīng)度（30 AW ? 1）和大線性二向色比（1.62）。

55.Magneto-Mechano-Electric Generators

In article number 2112028, Sam Nyung Yi, Jongmoon Jang, Geon-Tae Hwang, and co-workers demonstrate a >50 mW RMS-output magneto-mechano-electric generator achieved by hybridization of piezoelectric and electromagnetic induction effects. The electric output energy is enough to continuously operate multifunctional IoT sensors, thus enabling to verify ambient information such as temperature, humidity, light, ultraviolet index, air pressure, sound level, CO2, volatile organic compounds, and magnetic field.

磁力機(jī)械發(fā)電機(jī)

在文章編號(hào)?2112028 中，Sam Nyung Yi、Jongmoon Jang、Geon-Tae Hwang 及其同事展示了通過(guò)壓電和電磁感應(yīng)效應(yīng)混合實(shí)現(xiàn)的 >50 mW RMS 輸出磁力機(jī)械發(fā)電機(jī)。電輸出能量足以連續(xù)運(yùn)行多功能物聯(lián)網(wǎng)傳感器，從而能夠驗(yàn)證溫度、濕度、光線、紫外線指數(shù)、氣壓、聲級(jí)、二氧化碳、揮發(fā)性有機(jī)化合物和磁場(chǎng)等環(huán)境信息。

56.Supercapacitors

In article number 2201544, Yuto Katsuyama, Richard B. Kaner, and co-workers show that 3D-printed thick supercapacitor electrodes having bimodal porosity (≈20 μm macropores and 2–3 nm nanopores) can significantly enhance the overall cell energy/power densities by eliminating the use of inactive components such as current collectors and separators.

超級(jí)電容器

在文章編號(hào) 2201544 中，Yuto Katsuyama、Richard B. Kaner 及其同事表明，3D 打印的具有雙峰孔隙率（約 20 μm 大孔和 2-3 nm 納米孔）的厚超級(jí)電容器電極可以顯著提高整體電池能量/功率通過(guò)消除使用集電器和分離器等非活性部件來(lái)提高密度。

57.Biomass-Derived Carbon for High-Performance Batteries: From Structure to Properties.

用于高性能電池的生物質(zhì)衍生碳：從結(jié)構(gòu)到性能。

58.Micro-Nano Structure Functionalized Perovskite Optoelectronics: From Structure Functionalities to Device Applications.

微納結(jié)構(gòu)功能化鈣鈦礦光電子學(xué)：從結(jié)構(gòu)功能到器件應(yīng)用。

59.Functional Carbon Nitride Materials in Photo-Fenton-Like Catalysis for Environmental Remediation.

用于環(huán)境修復(fù)的類(lèi)光芬頓催化中的功能氮化碳材料。

60.Supported Sub-Nanometer Clusters for Electrocatalysis Applications.

支持用于電催化應(yīng)用的亞納米簇。

61.Porous Nanofiber Membrane: Rational Platform for Highly Sensitive Thermochromic Sensor.

多孔納米纖維膜：高靈敏熱致變色傳感器的合理平臺(tái)。

62.Interparticle Distance Variation in Semiconductor Nanoplatelet Stacks.

半導(dǎo)體納米片堆棧中粒子間距離的變化。

63.Polarization Sensitive Solar-Blind Ultraviolet Photodetectors Based on Ultrawide Bandgap KNb3O8 Nanobelt with Fringe-Like Atomic Lattice.

基于具有類(lèi)條紋原子晶格的超寬帶隙 KNb3O8 納米帶的偏振敏感日盲紫外光電探測(cè)器。

64.Exceeding 50 mW RMS-Output Magneto-Mechano-Electric Generator by Hybridizing Piezoelectric and Electromagnetic Induction Effects.

通過(guò)混合壓電和電磁感應(yīng)效應(yīng)，輸出超過(guò) 50 mW RMS 的磁機(jī)電發(fā)電機(jī)。

65.Macro- and Nano-Porous 3D-Hierarchical Carbon Lattices for Extraordinarily High Capacitance Supercapacitors.

用于超高電容超級(jí)電容器的宏觀和納米多孔 3D 分層碳晶格。

66.An Injectable Hydrogel Reshaping Adenosinergic Axis for Cancer Therapy.

用于癌癥治療的可注射水凝膠重塑腺苷能軸。

67.Efficient Non-Doped Blue Electro-fluorescence with Boosted and Balanced Carrier Mobilities.

高效的非摻雜藍(lán)色電熒光，具有增強(qiáng)且平衡的載流子遷移率。

68.When Less Gold is More: Selective Attomolar Biosensing at the Nanoscale.

當(dāng)金越少越好：納米尺度的選擇性阿摩爾生物傳感。

69.Carbon Nanotube/Polymer Coaxial Cables with Strong Interface for Damping Composites and Stretchable Conductors.

用于阻尼復(fù)合材料和可拉伸導(dǎo)體的具有強(qiáng)接口的碳納米管/聚合物同軸電纜。

70.Ternary-Assisted Sequential Solution Deposition Enables Efficient All-Polymer Solar Cells with Tailored Vertical-Phase Distribution.

三元輔助順序溶液沉積可實(shí)現(xiàn)具有定制垂直相位分布的高效全聚合物太陽(yáng)能電池。

71.Design of Active Defects in Semiconductors: 3D Electron Diffraction Revealed Novel Organometallic Lead Bromide Phases Containing Ferrocene as Redox Switches.

半導(dǎo)體活性缺陷的設(shè)計(jì)：3D 電子衍射揭示了含有二茂鐵的新型有機(jī)金屬溴化鉛相作為氧化還原開(kāi)關(guān)。

72.A Living Material Constructed from Stem Cells for Tumor-Tropic Oncotherapy with Real-Time Imaging.

由干細(xì)胞構(gòu)建的活材料，用于實(shí)時(shí)成像的腫瘤治療。

73.Interface Engineering of a Ceramic Electrolyte by Ta2O5 Nanofilms for Ultrastable Lithium Metal Batteries.

用于超穩(wěn)定鋰金屬電池的 Ta2O5 納米膜陶瓷電解質(zhì)的界面工程。

74.A Light-Curable and Tunable Extracellular Matrix Hydrogel for In Situ Suture-Free Corneal Repair.

用于原位免縫合角膜修復(fù)的光固化和可調(diào)節(jié)細(xì)胞外基質(zhì)水凝膠。

75.Giant Photoresponsivity and External Quantum Efficiency in a Contact-Engineered Broadband a-IGZO Phototransistor.

接觸式設(shè)計(jì)的寬帶 a-IGZO 光電晶體管具有巨大的光響應(yīng)性和外部量子效率。

76.Antibacterial Property of Oxygen-Terminated Carbon Bonds.

氧封端碳鍵的抗菌性能。

77.Sensitivity and Detection Limit of Spectroscopic-Grade Perovskite CsPbBr3 Crystal for Hard X-Ray Detection.

用于硬 X 射線檢測(cè)的光譜級(jí)鈣鈦礦 CsPbBr3 晶體的靈敏度和檢測(cè)限。

78.Hybrid-Piezoelectret Based Highly Efficient Ultrasonic Energy Harvester for Implantable Electronics.

用于植入式電子產(chǎn)品的基于混合壓電駐極體的高效超聲波能量采集器。

79.Work-Function-Tunable MXenes Electrodes to Optimize p-CsCu2I3/n-Ca2Nb3-xTaxO10 Junction Photodetectors for Image Sensing and Logic Electronics.

工作功能可調(diào)諧 MXenes 電極可優(yōu)化用于圖像傳感和邏輯電子的 p-CsCu2I3/n-Ca2Nb3-xTaxO10 結(jié)光電探測(cè)器。

80.Microphase Separation-Driven Sequential Self-Folding of Nanocomposite Hydrogel/Elastomer Actuators.

微相分離驅(qū)動(dòng)的納米復(fù)合水凝膠/彈性體致動(dòng)器的順序自折疊。

81.Synchronous Passivation of Defects with Low Formation Energies via Terdentate Anchoring Enabling High Performance Perovskite Solar Cells with Efficiency over 24%.

通過(guò)三齒錨定同步鈍化低形成能缺陷，實(shí)現(xiàn)高性能鈣鈦礦太陽(yáng)能電池，效率超過(guò) 24%。

82.Membranotronics: Bioinspired Nonlinear Ion Transport with Negative Differential Resistance Based on Elastomeric Membrane System.

膜電子學(xué)：基于彈性膜系統(tǒng)的具有負(fù)微分電阻的仿生非線性離子傳輸。

83.Achieving 16% Efficiency for Polythiophene Organic Solar Cells with a Cyano-Substituted Polythiophene.

使用氰基取代的聚噻吩使聚噻吩有機(jī)太陽(yáng)能電池實(shí)現(xiàn) 16% 的效率。

84.Regulating the Electrolyte Solvation Structure Enables Ultralong Lifespan Vanadium-Based Cathodes with Excellent Low-Temperature Performance.

調(diào)節(jié)電解質(zhì)溶劑化結(jié)構(gòu)可實(shí)現(xiàn)超長(zhǎng)壽命的釩基陰極，并具有優(yōu)異的低溫性能。

85.Assembly of Metal–Phenolic Networks on Water-Soluble Substrates in Nonaqueous Media.

非水介質(zhì)中水溶性基材上金屬-酚醛網(wǎng)絡(luò)的組裝。

86.Boosting Tumor Immunotherapy by Bioactive Nanoparticles via Ca2+ Interference Mediated TME Reprogramming and Specific PD-L1 Depletion.

通過(guò) Ca2+ 干擾介導(dǎo)的 TME 重編程和特異性 PD-L1 耗竭，生物活性納米顆粒增強(qiáng)腫瘤免疫治療。

87.Barycenter Self-Adapting Triboelectric Nanogenerator for Sea Water Wave High-Entropy Energy Harvesting and Self-Powered Forecasting in Marine Meteorology.

用于海水波高熵能量收集和海洋氣象自供電預(yù)報(bào)的重心自適應(yīng)摩擦納米發(fā)電機(jī)。

88.2D Pb-Halide Perovskites Can Self-Heal Photodamage Better than 3D Ones.

2D 鹵化鉛鈣鈦礦比 3D 鈣鈦礦能更好地自我修復(fù)光損傷。

89.Precise Assembly of Highly Crystalline Colloidal Photonic Crystals inside the Polyester Yarns: A Spray Coating Synthesis for Breathable and Durable Fabrics with Saturated Structural Colors.

聚酯紗線內(nèi)高度結(jié)晶膠體光子晶體的精確組裝：噴涂合成，用于具有飽和結(jié)構(gòu)顏色的透氣耐用織物。

90.Low-Valence Metal Single Atoms on Graphdiyne Promotes Electrochemical Nitrogen Reduction via M-to-N2 π-Backdonation.

石墨炔上的低價(jià)金屬單原子通過(guò) M-to-N2 π-Backdonation 促進(jìn)電化學(xué)氮還原。

91.Tailoring Self-Polarization of Bimetallic Organic Frameworks with Multiple Polar Units Toward High-Performance Consecutive Multi-Band Electromagnetic Wave Absorption at Gigahertz.

定制具有多個(gè)極性單元的雙金屬有機(jī)框架的自極化，以實(shí)現(xiàn)千兆赫茲的高性能連續(xù)多頻帶電磁波吸收。

92.Modulating the Voltage Decay and Cationic Redox Kinetics of Li-Rich Cathodes via Controlling the Local Electronic Structure.

通過(guò)控制局部電子結(jié)構(gòu)調(diào)節(jié)富鋰陰極的電壓衰減和陽(yáng)離子氧化還原動(dòng)力學(xué)。

93.Bridging the Charge Accumulation and High Reaction Order for High-Rate Oxygen Evolution and Long Stable Zn-Air Batteries.

連接電荷積累和高反應(yīng)順序，實(shí)現(xiàn)高速析氧和長(zhǎng)期穩(wěn)定的鋅空氣電池。

94.Amino-Functionalized Niobium-Carbide MXene Serving as Electron Transport Layer and Perovskite Additive for the Preparation of High-Performance and Stable Methylammonium-Free Perovskite Solar Cells.

氨基功能化鈮碳化物 MXene 作為電子傳輸層和鈣鈦礦添加劑，用于制備高性能且穩(wěn)定的無(wú)甲基銨鈣鈦礦太陽(yáng)能電池。