【標題速讀】【Advmat】【2022年】【11月】

2023-08-02 22:22 作者:Rt_Cola 0人讀過 | 我要投稿

聲明：本專欄主要對生命科學(xué)領(lǐng)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(guān)，其他領(lǐng)域如果出現(xiàn)翻譯錯誤請諒解。

Robotic Skin

In article number 2204805, Jae-Woong Jeong and co-workers report an adaptive robotic skin with an augmented pressure-sensing capability beyond that of human skin. The robotic skin is composed of gallium microgranules fabricated uniformly using a T-junction microfluidic system. Through the phase transition of gallium microgranules, it achieves a higher sensitivity in the soft mode and a broader dynamic range in the rigid mode compared to human skin.

機器人皮膚

在第 2204805 號文章中，Jae-Woong Jeong 及其同事報告了一種自適應(yīng)機器人皮膚，其增強的壓力感應(yīng)能力超越了人類皮膚。機器人皮膚由使用 T 形連接微流體系統(tǒng)均勻制造的鎵微粒組成。通過鎵微粒的相變，與人類皮膚相比，它在軟模式下實現(xiàn)了更高的靈敏度，在剛性模式下實現(xiàn)了更寬的動態(tài)范圍。

Single-Atom Catalysts

In article number 2205674, Kang Liang and co-workers develop a generalized strategy to construct highly active ferric-centered single-atom catalysts via a biomineralization strategy that enables the homogeneous encapsulation of metalloproteins within metal-organic frameworks followed by pyrolysis. The enhanced activity of the obtained catalysts benefits from the highly dispersed atoms, the mesopores, and the regulated coordination environment of the single-atom active sites induced by the metalloproteins.

單原子催化劑

在第 2205674 號文章中，康亮和同事開發(fā)了一種通用策略，通過生物礦化策略構(gòu)建高活性的以鐵為中心的單原子催化劑，該策略能夠?qū)⒔饘俚鞍拙鶆蚍庋b在金屬有機框架內(nèi)，然后進行熱解。所獲得的催化劑活性的增強得益于金屬蛋白誘導(dǎo)的高度分散的原子、介孔以及單原子活性位點的調(diào)節(jié)配位環(huán)境。

Light-Emitting Devices

A color-tunable light-emitting diode is realized by Jiang Pu, Yasumitsu Miyata, Taishi Takenobu, and co-workers in article number 2203250 using compositionally graded monolayer transition metal dichalcogenide alloys. By controlling the light-emitting positions in the alloys, the composition gradient of the bandgap enables continuous and reversible light emission with energies ranging from 2.1 to 1.7 eV. The results provide a new approach for exploring monolayer semiconductor alloy based broadband optoelectronic device applications.

發(fā)光器件

Jiang Pu、Yasumitsu Miyata、Taishi Takenobu 及其同事使用成分梯度單層過渡金屬二硫?qū)倩锖辖饘崿F(xiàn)了顏色可調(diào)發(fā)光二極管，其文章編號為 2203250。通過控制合金中的發(fā)光位置，帶隙的成分梯度能夠?qū)崿F(xiàn)連續(xù)且可逆的發(fā)光，能量范圍為2.1至1.7 eV。該結(jié)果為探索基于單層半導(dǎo)體合金的寬帶光電器件應(yīng)用提供了新方法。

Proteomics

In article number 2206008, Omid C. Farokhzad, Daniel Hornburg, and co-workers show how the Vroman effect can be leveraged to capture the complexity of human proteomes using engineered nanoparticles. Protein corona formation dynamics demonstrate how nanoparticle functionalization and nano–bio binding competition enable deep and quantitative interrogation of biosamples. This facilitates increased capture of low-abundance proteins, including cytokines and chemokines, enabling new strategies for biomarker discovery and personalized nanomedicine.

蛋白質(zhì)組學(xué)

在第 2206008 號文章中，Omid C. Farokhzad、Daniel Hornburg 及其同事展示了如何利用 Vroman 效應(yīng)利用工程納米粒子捕獲人類蛋白質(zhì)組的復(fù)雜性。蛋白質(zhì)冠形成動力學(xué)展示了納米顆粒功能化和納米生物結(jié)合競爭如何實現(xiàn)對生物樣品的深入和定量分析。這有助于增加對低豐度蛋白質(zhì)（包括細胞因子和趨化因子）的捕獲，從而為生物標志物發(fā)現(xiàn)和個性化納米醫(yī)學(xué)提供新策略。

Confined 2D Channels

2D-material membranes have demonstrated great potential in molecular separation. In article number 2206349, Gongping Liu and co-workers rationally confine metal into sub-nanometer GO galleries, endowing 2D channels with molecular recognition and sieving properties for discriminating ethylene over ethane. The metal confined in a 2D nanostructure would be of interest in other fields such as single-atom catalysis, sensors, and energy conversion.

受限二維通道

二維材料膜在分子分離方面表現(xiàn)出巨大的潛力。在第 2206349 號文章中，Gongping Liu 及其同事將金屬合理限制在亞納米 GO 通道中，賦予 2D 通道分子識別和篩選特性，以區(qū)分乙烯和乙烷。限制在二維納米結(jié)構(gòu)中的金屬將在單原子催化、傳感器和能量轉(zhuǎn)換等其他領(lǐng)域引起人們的興趣。

Biofabrication

In article number 2204301, Marcy Zenobi-Wong and co-workers use Filamented Light (FLight) biofabrication to create hydrogel constructs containing ultrahigh-aspect-ratio microfilaments. FLight biofabrication is both fast and biocompatible. Microfilaments and associated microchannels provide effective topological guidance cues to instruct cell migration, alignment, and extracellular matrix deposition of resident cells.

生物制造

在第 2204301 號文章中，Marcy Zenobi-Wong 及其同事使用絲狀光 (FLight) 生物制造技術(shù)來創(chuàng)建含有超高縱橫比微絲的水凝膠結(jié)構(gòu)。 FLight 生物制造既快速又具有生物相容性。微絲和相關(guān)的微通道提供有效的拓撲引導(dǎo)線索來指導(dǎo)常駐細胞的細胞遷移、排列和細胞外基質(zhì)沉積。

Nanomedicine

The “Label-free sINgle-cell tracKing of 2D matErials by mass cytometry and MIBI-TOF Design” (LINKED) strategy enables MXene detection and simultaneous measurement of multiple cell and tissue features by single-cell mass cytometry and high-dimensional imaging. As demonstrated in article number 2205154, Yury Gogotsi, Lucia Gemma Delogu, and co-workers, LINKED allows a deep immune profiling of MXenes and can be extended to other 2D materials, enabling exciting new opportunities in biomedicine.

納米醫(yī)學(xué)

“通過質(zhì)譜流式細胞儀和 MIBI-TOF 設(shè)計對 2D 材料進行無標記單細胞追蹤”（LINKED）策略可通過單細胞質(zhì)譜流式儀和高維成像實現(xiàn) MXene 檢測并同時測量多個細胞和組織特征。正如 Yury Gogotsi、Lucia Gemma Delogu 及其同事在文章編號 2205154 中所演示的，LINKED 可以對 MXene 進行深度免疫分析，并且可以擴展到其他 2D 材料，從而在生物醫(yī)學(xué)領(lǐng)域帶來令人興奮的新機遇。

Magnetic Ordering

In article number 2206161, Jason D. Azoulay and co-workers demonstrate that long-range π-correlations within a solution-processed high-spin conjugated polymer provide robust spin-centers, intermolecular ferromagnetic exchange interactions, and anisotropic spin ordering. This new approach toward practically applicable metal-free magnetism opens new opportunities for emerging technologies that integrate spin, magnetic, and quantum mechanical effects and operate at room temperature.

磁力排序

在文章編號 2206161 中，Jason D. Azoulay 及其同事證明，溶液處理的高自旋共軛聚合物內(nèi)的長程 π 相關(guān)性提供了強大的自旋中心、分子間鐵磁交換相互作用和各向異性自旋排序。這種實用的無金屬磁性的新方法為集成自旋、磁和量子力學(xué)效應(yīng)并在室溫下運行的新興技術(shù)帶來了新的機遇。

Photonic Logic Gates

In article number 2204839, Chi-Ming Che and co-workers describe a photonic logic gate device based on supramolecular heterostructures made by phosphorescent Au, Cu, Pt, and Pd complexes. The photonic logic gate operation is realized by an optical waveguiding effect and energy transfer among the different building blocks. These photonic logic gates have high emission anisotropy, low optical waveguiding loss, and continuously varied emission colors ranging from blue to near-infrared spectral regions.

光子邏輯門

在第 2204839 號文章中，Chi-Ming Che 及其同事描述了一種基于由磷光金、銅、鉑和鈀復(fù)合物制成的超分子異質(zhì)結(jié)構(gòu)的光子邏輯門器件。光子邏輯門操作是通過光波導(dǎo)效應(yīng)和不同構(gòu)建塊之間的能量轉(zhuǎn)移來實現(xiàn)的。這些光子邏輯門具有高發(fā)射各向異性、低光波導(dǎo)損耗以及從藍色到近紅外光譜區(qū)域連續(xù)變化的發(fā)射顏色。

Organic Neuroelectronics

In article number 2201864, Tae-Woo Lee and co-workers review recent advances in organic neuroelectronics for neural interfaces and neuroprosthetics. Organic materials are widely researched as promising candidates for neuroelectronics due to their physical/chemical/electrical properties. Organic neural interfaces and organic nervetonics are developed to overcome the limitations of current neuroelectronics.

有機神經(jīng)電子學(xué)

在第 2201864 號文章中，Tae-Woo Lee 及其同事回顧了神經(jīng)接口和神經(jīng)假體有機神經(jīng)電子學(xué)的最新進展。有機材料因其物理/化學(xué)/電學(xué)特性而被廣泛研究為神經(jīng)電子學(xué)的有前途的候選材料。有機神經(jīng)接口和有機神經(jīng)營養(yǎng)劑的開發(fā)是為了克服當(dāng)前神經(jīng)電子學(xué)的局限性。

Lithium–Sulfur Batteries

In article number 2205284, Xue-Qiang Zhang, Qiang Zhang, and co-workers demonstrate that by weakening the solvating power of the solvents, lithium polysulfides can be encapsulated to inhibit the parasitic reactions on lithium-metal anodes. The large steric hindrance of the fluorohydrocarbon chains and the electron-withdrawing–CF2–segments endow 1,1,2,2-tetrafluoroethyl-2,2,3,3-tetrafluoropropyl ether with prominently weak solvating power, similar to a submarine, to tightly encapsulate lithium polysulfides and achieve long-cycling lithium–sulfur batteries.

鋰硫電池

在文章編號2205284中，張學(xué)強、張強及其同事證明，通過削弱溶劑的溶劑化能力，可以封裝多硫化鋰以抑制鋰金屬陽極上的寄生反應(yīng)。氟烴鏈的大空間位阻和吸電子-CF2–鏈段賦予1,1,2,2-四氟乙基-2,2,3,3-四氟丙醚顯著較弱的溶劑化能力，類似于潛艇，可以緊密封裝多硫化鋰，實現(xiàn)長循環(huán)鋰硫電池。

Materials Research Thrives at Sichuan University

To commemorate the 125th anniversary of the founding of Sichuan University, this special issue presents an overview of the latest progress of materials research at this university. Topics include vaccine-delivery systems, tissue-engineering materials, intelligent materials, commodity polymeric materials, biomimetic materials, advanced energy materials, flame-retardant materials, separation materials, framework nucleic-acid-based nanomaterials, and quantum dots and magic-size clusters.

四川大學(xué)材料研究蓬勃發(fā)展

為紀念四川大學(xué)建校125周年，本期特刊綜述了四川大學(xué)材料研究的最新進展。主題包括疫苗輸送系統(tǒng)、組織工程材料、智能材料、商品高分子材料、仿生材料、先進能源材料、阻燃材料、分離材料、骨架核酸納米材料、量子點和魔尺寸團簇。

DNA Nanotechnology

Tetrahedral framework nucleic acids have attracted extensive attention as a static drug nanocarrier. In article number 2201731, Xiaxiao Cai and co-workers report a dynamic lysosome-activated tetrahedral nanobox for completely encapsulating short interfering RNA. The closed tetrahedral structure endows cargo RNA with active release. This work offers a dynamic pH-sensitive confinement delivery system for small RNA.

DNA納米技術(shù)

四面體框架核酸作為靜態(tài)藥物納米載體引起了廣泛的關(guān)注。在第 2201731 號文章中，Xiaxiao Cai 及其同事報道了一種動態(tài)溶酶體激活的四面體納米盒，用于完全封裝短干擾 RNA。封閉的四面體結(jié)構(gòu)賦予貨物RNA主動釋放的能力。這項工作為小 RNA 提供了一種動態(tài) pH 敏感限制遞送系統(tǒng)。

Smart Polymeric Materials

In article number 2107877, Liang-Yin Chu and co-workers review the recent progress of smart polymeric materials that combine micro-/nanostructures and molecular design to achieve designable advanced functions. The understanding of the interplay between the micro-/nanostructures and their responsive properties creates new opportunities for exploiting application-oriented smart materials with desired functions.

智能高分子材料

在第 2107877 號文章中，Liang-Yin Chu 及其同事回顧了智能聚合物材料的最新進展，該材料將微/納米結(jié)構(gòu)和分子設(shè)計相結(jié)合，以實現(xiàn)可設(shè)計的高級功能。對微/納米結(jié)構(gòu)及其響應(yīng)特性之間相互作用的理解為開發(fā)具有所需功能的面向應(yīng)用的智能材料創(chuàng)造了新的機會。

Multidisciplinary Med-X Center for Materials at Sichuan University

To promote the development of advanced biomedical materials, Sichuan University established the multidisciplinary Med-X Center for Materials in 2019. Grounded in the solid strengths of West China medicine discipline clusters as well as materials science at Sichuan University, the center supports both fundamental and translational research of the most cutting-edge biomedical materials. So far, scores of products have accessed into the market to benefit patients.

四川大學(xué)Med-X材料多學(xué)科中心

為推動先進生物醫(yī)用材料的發(fā)展，四川大學(xué)于2019年成立了多學(xué)科Med-X材料中心。該中心依托四川大學(xué)華西醫(yī)學(xué)學(xué)科群和材料科學(xué)的雄厚優(yōu)勢，支持基礎(chǔ)研究和轉(zhuǎn)化研究。研究最前沿的生物醫(yī)學(xué)材料。目前已有數(shù)十種產(chǎn)品進入市場，造?；颊?。

Cardiovascular Biomaterials and Devices

In article number 2201971, Yunbing Wang and co-workers provide an overview of the challenges and research frontiers of innovative biomaterials and devices for the treatment of cardiovascular diseases, and their future development directions are discussed. With the development and improved performance of new cardiovascular biomaterials and devices, more advanced treatment options will be available to bring new hope to the cardiovascular patients.

心血管生物材料和器件

在第2201971號文章中，王云兵及其同事概述了用于治療心血管疾病的創(chuàng)新生物材料和設(shè)備的挑戰(zhàn)和研究前沿，并討論了其未來的發(fā)展方向。隨著新型心血管生物材料和器件的開發(fā)和性能的提高，將有更先進的治療選擇，給心血管患者帶來新的希望。

Lamellar Frameworks

In article number 2107941, Runlai Li, Qiang Fu, and co-workers propose a method to thin down commodity polymers into lamellar thin frameworks (LTF) with a square-meter large area. Interactions between molecules are regulated by multistep processing for ordered molecular alignment. The prepared new structures (LTF and shish-network), properties (ultrahigh transparency and specific stiffness), and measurements may promote fundamental research and novel practical applications of commodity polymers.

層狀框架

在第 2107941 號文章中，Runlai Li、Qiang Fu 及其同事提出了一種將商品聚合物稀釋成平方米大面積的層狀薄框架 (LTF) 的方法。分子之間的相互作用通過多步驟處理來調(diào)節(jié)，以實現(xiàn)有序的分子排列。所制備的新結(jié)構(gòu)（LTF 和 shish 網(wǎng)絡(luò)）、性能（超高透明度和比剛度）和測量可以促進商品聚合物的基礎(chǔ)研究和新穎的實際應(yīng)用。

Axon Regeneration

In article number 2202513, Sirong Shi, Yungfeng Lin, and co-workers report a multifunctional tetrahedral-framework nucleic acids system, denoted as MiDs. The peripheral nervous system is like a vibrant rainforest. As flexible in conformation as cats, the powerful MiDs enhance the role of macrophages (represented by the fireflies) and Schwann cells (butterflies) on damaged peripheral nerves, allowing them to grow freely like newborn vines.

軸突再生

在第 2202513 號文章中，Sirong Shi、Yungfeng Lin 及其同事報告了一種多功能四面體框架核酸系統(tǒng)，表示為 MiD。周圍神經(jīng)系統(tǒng)就像一片生機勃勃的雨林。與貓一樣靈活的構(gòu)象，強大的 MiD 增強了巨噬細胞（以螢火蟲為代表）和雪旺細胞（蝴蝶）對受損周圍神經(jīng)的作用，使它們能夠像新生的藤蔓一樣自由生長。

Tissue Engineering

In article 2205614, Anthony S. Weiss and co-workers report a nonporous vascular graft from tropoelastin and polyglycerol sebacate that converts into a neoartery, with cellular and extracellular matrix structures approximating the native aorta. The resulting neoartery comprises an internal elastic lamina and multiple elastic lamellae sandwiched between circumferentially aligned smooth muscle cell layers. Cover design by Ziyu Wang and illustrated by Ella Maru Studio.

組織工程

在文章 2205614 中，Anthony S. Weiss 及其同事報告了一種由原彈性蛋白和聚甘油癸二酸酯制成的無孔血管移植物，可轉(zhuǎn)化為新動脈，其細胞和細胞外基質(zhì)結(jié)構(gòu)接近天然主動脈。所得的新動脈包括內(nèi)部彈性層和夾在圓周排列的平滑肌細胞層之間的多個彈性層。封面由王子宇設(shè)計，Ella Maru Studio 負責(zé)插畫。

Liquid–Liquid Phase Separation

In article number 2206371, Ayala Lampel and co-workers report synthetic liquid compartments formed by peptide–RNA liquid–liquid phase separation, inspired by viral factories, which are cellular microcompartments that host viral replication and assembly. The dynamics of the compartments, their encapsulation efficiency toward various molecules, and the release of payload from the compartments can be temporally regulated by light.

液-液相分離

在文章編號 2206371 中，Ayala Lampel 及其同事報告了由肽-RNA 液-液相分離形成的合成液體區(qū)室，其靈感來自于病毒工廠，病毒工廠是承載病毒復(fù)制和組裝的細胞微區(qū)室。隔室的動力學(xué)、它們對各種分子的封裝效率以及有效負載從隔室的釋放可以通過光暫時調(diào)節(jié)。

Anomalous Hall Effect

In article number 2206685, Lingfei Wang, Wenbin Wu, and co-workers report on the role of Ru doping in enhancing the anomalous Hall effect of ferromagnetic La2/3Sr1/3MnO3 thin films. The Ru dopants embedded in the perovskite-structured La2/3Sr1/3MnO3 can cause significant spin frustration and asymmetric scattering of spin-polarized electrons, thus leading to the enlarged anomalous Hall effect.

反?；魻栃?yīng)

在文章編號 2206685 中，Lingfei Wang、Wenbin Wu 及其同事報告了 Ru 摻雜在增強鐵磁 La2/3Sr1/3MnO3 薄膜的反?；魻栃?yīng)中的作用。嵌入鈣鈦礦結(jié)構(gòu)La2/3Sr1/3MnO3中的Ru摻雜劑會引起顯著的自旋挫敗和自旋極化電子的不對稱散射，從而導(dǎo)致反?；魻栃?yīng)擴大。

Aqueous Battery Chemistry

In article number 2207040, Guang Feng, Liumin Suo, and co-workers report that when a small number of hydrophobic cations are introduced to an appropriate concentration electrolyte (ACE), the added cations can form an electric-field-reinforced hydrophobic cationic sieve (HCS) that blocks water away from the anode. As a result, ALIBs with HCS-ACE can achieve lower costs and better performance.

水電池化學(xué)

在文章編號2207040中，Guang Feng、Liumin Suo及其同事報告稱，當(dāng)將少量疏水性陽離子引入適當(dāng)濃度的電解質(zhì)（ACE）中時，添加的陽離子可以形成電場增強的疏水性陽離子篩（HCS），將水阻擋在陽極之外。因此，具有HCS-ACE的ALIB可以實現(xiàn)更低的成本和更好的性能。

Biosensing

In article number 2205760, Xiaoshuai Liu, Xianchuang Zheng, and co-workers introduce an optically controlled virtual microsensor (OCViM) for biomarker detection in vivo. In this new technique, light serves as the virtual handle to manipulate the sensor tip and also excite it to generate fluorescence emission for biosensing. This new technique combines the features of the needle-type microelectrode and the fluorescence imaging method, leading to significant advantages including noninvasiveness, active control, and high resolution.

生物傳感

在第 2205760 號文章中，Xiaoshuai Liu、Xianchuang Cheng 及其同事介紹了一種用于體內(nèi)生物標志物檢測的光控虛擬微傳感器 (OCViM)。在這項新技術(shù)中，光充當(dāng)虛擬手柄來操縱傳感器尖端，并激發(fā)它產(chǎn)生用于生物傳感的熒光發(fā)射。該新技術(shù)結(jié)合了針式微電極和熒光成像方法的特點，具有無創(chuàng)、主動控制、高分辨率等顯著優(yōu)勢。

1.Tailoring Materials for Epilepsy Imaging: From Biomarkers to Imaging Probes.

為癲癇成像定制材料：從生物標志物到成像探針。

2.Organic Hole-Transport Layers for Efficient, Stable, and Scalable Inverted Perovskite Solar Cells.

用于高效、穩(wěn)定和可擴展的倒置鈣鈦礦太陽能電池的有機空穴傳輸層。

3.Beyond Human Touch Perception: An Adaptive Robotic Skin Based on Gallium Microgranules for Pressure Sensory Augmentation.

超越人類觸覺感知：基于鎵微粒的自適應(yīng)機器人皮膚，用于壓力感覺增強。

4.Regulating the Coordination Environment of Mesopore-Confined Single Atoms from Metalloprotein-MOFs for Highly Efficient Biocatalysis.

調(diào)節(jié)金屬蛋白-MOF 介孔限制單原子的配位環(huán)境以實現(xiàn)高效生物催化。

5.Continuous Color-Tunable Light-Emitting Devices Based on Compositionally Graded Monolayer Transition Metal Dichalcogenide Alloys.

基于成分梯度單層過渡金屬二硫?qū)倩锖辖鸬倪B續(xù)顏色可調(diào)發(fā)光器件。

6.Enhanced Competition at the Nano–Bio Interface Enables Comprehensive Characterization of Protein Corona Dynamics and Deep Coverage of Proteomes.

納米生物界面增強的競爭使得蛋白質(zhì)電暈動力學(xué)的全面表征和蛋白質(zhì)組的深度覆蓋成為可能。

7.Metal Confined in 2D Membranes for Molecular Recognition and Sieving towards Ethylene/Ethane Separation.

限制在二維膜中的金屬用于分子識別和篩分以實現(xiàn)乙烯/乙烷分離。

8.Chemical Welding of the Electrode–Electrolyte Interface by Zn-Metal-Initiated In Situ Gelation for Ultralong-Life Zn-Ion Batteries.

通過鋅金屬引發(fā)的原位凝膠化學(xué)焊接電極-電解質(zhì)界面，用于超長壽命鋅離子電池。

9.Wet-Adhesive On-Skin Sensors Based on Metal–Organic Frameworks for Wireless Monitoring of Metabolites in Sweat.

基于金屬有機框架的濕粘附皮膚傳感器，用于無線監(jiān)測汗液中的代謝物。

10.Nonequilibrium Lattice Dynamics in Photoexcited 2D Perovskites.

光激發(fā)二維鈣鈦礦中的非平衡晶格動力學(xué)。

11.“Tree-Trunk” Design for Flexible Quasi-Solid-State Electrolytes with Hierarchical Ion-Channels Enabling Ultralong-Life Lithium-Metal Batteries.

“樹干”設(shè)計，可實現(xiàn)超長壽命的鋰金屬電池。

12.Universal Metasurfaces for Complete Linear Control of Coherent Light Transmission.

用于相干光傳輸?shù)耐暾€性控制的通用超表面。

13.An Integrated 3D Hydrophilicity/Hydrophobicity Design for Artificial Sweating Skin (i-TRANS) Mimicking Human Body Perspiration.

模仿人體排汗的人工出汗皮膚 ( i -TRANS)的集成 3D 親水性/疏水性設(shè)計。

14.A Multi-Bioactive Nanomicelle-Based “One Stone for Multiple Birds” Strategy for Precision Therapy of Abdominal Aortic Aneurysms.

多生物活性納米膠束的“一石多鳥”策略，用于腹主動脈瘤的精準治療。

15.Ultrathin Piezoelectric Resonators Based on Graphene and Free-Standing Single-Crystal BaTiO3.

基于石墨烯和獨立式單晶 BaTiO3 的超薄壓電諧振器。

16.Ultrathin Covalent Organic Framework Membranes Prepared by Rapid Electrophoretic Deposition.

通過快速電泳沉積制備超薄共價有機框架膜。

17.Self-Healing of Prussian Blue Analogues with Electrochemically Driven Morphological Rejuvenation.

電化學(xué)驅(qū)動形態(tài)復(fù)興的普魯士藍類似物的自我修復(fù)。

18.A Smart Photothermal Nanosystem with an Intrinsic Temperature-Control Mechanism for Thermostatic Treatment of Bacterial Infections.

智能光熱納米系統(tǒng)，用于細菌感染的恒溫治療。

19.Local Diverse Polarization Optimized Comprehensive Energy-Storage Performance in Lead-Free Superparaelectrics.

超順電體的綜合儲能性能。

20.Perovskite-Socketed Sub-3 nm Copper for Enhanced CO2 Electroreduction to C2+.

鈣鈦礦嵌入的亞 3 nm 銅可增強 CO2 電還原至 C2+。

21.Multifunctionality of Li2SrNb2O7: Memristivity, Tunable Rectification, Ferroelasticity, and Ferroelectricity.

Li2SrNb2O7 的多功能性：憶阻性、可調(diào)諧整流、鐵彈性和鐵電性。

22.Morphology-Control Growth of Graphene Islands by Nonlinear Carbon Supply.

通過非線性碳供應(yīng)形態(tài)控制石墨烯島的生長。

23.Janus Helical Ribbon Structure of Ordered Nanowire Films for Flexible Solar Thermoelectric Devices.

用于柔性太陽能熱電器件的有序納米線薄膜的 Janus 螺旋帶結(jié)構(gòu)。

24.Nature-Inspired Design of Molybdenum–Selenium Dual-Single-Atom Electrocatalysts for CO2 Reduction.

用于二氧化碳減排的鉬-硒雙單原子電催化劑的自然啟發(fā)設(shè)計。

25.A Honeycomb-Like Porous Crystalline Hetero-Electrocatalyst for Efficient Electrocatalytic CO2 Reduction.

用于高效電催化二氧化碳還原的蜂窩狀多孔結(jié)晶異質(zhì)電催化劑。

26.Highly Efficient and Robust Full-Color Organic Afterglow through 2D Superlattices Embedment.

通過二維超晶格嵌入實現(xiàn)高效、穩(wěn)健的全彩有機余輝。

27.Triple-Function Electrolyte Regulation toward Advanced Aqueous Zn-Ion Batteries.

針對先進水性鋅離子電池的三功能電解質(zhì)調(diào)節(jié)。

28.Strong Electronic Metal–Support Interaction between Iridium Single Atoms and a WO3 Support Promotes Highly Efficient and Robust CO2 Cycloaddition.

銥單原子和 WO3 載體之間強電子金屬載體相互作用促進高效且穩(wěn)健的 CO2 環(huán)加成。

29.Organic Neuroelectronics: From Neural Interfaces to Neuroprosthetics.

有機神經(jīng)電子學(xué)：從神經(jīng)接口到神經(jīng)假體。

30.Recent Progress of Metal Sulfide Photocatalysts for Solar Energy Conversion.

用于太陽能轉(zhuǎn)換的金屬硫化物光催化劑的最新進展。

31.Filamented Light (FLight) Biofabrication of Highly Aligned Tissue-Engineered Constructs.

高度排列的組織工程結(jié)構(gòu)的絲狀光（ FLight ）生物制造。

32.Immune Profiling and Multiplexed Label-Free Detection of 2D MXenes by Mass Cytometry and High-Dimensional Imaging.

通過質(zhì)譜流式細胞術(shù)和高維成像對 2D MXene進行免疫分析和多重?zé)o標記檢測。

33.Magnetic Ordering in a High-Spin Donor–Acceptor Conjugated Polymer.

高自旋供體-受體共軛聚合物中的磁有序。

34.Optical Signal Modulation in Photonic Waveguiding Heteroarchitectures with Continuously Variable Visible-To-Near-Infrared Emission Color.

具有連續(xù)可變可見光到近紅外發(fā)射顏色的光子波導(dǎo)異質(zhì)結(jié)構(gòu)中的光信號調(diào)制。

35.Weakening the Solvating Power of Solvents to Encapsulate Lithium Polysulfides Enables Long-Cycling Lithium–Sulfur Batteries.

削弱溶劑的溶解能力以封裝多硫化鋰，可以實現(xiàn)長循環(huán)鋰硫電池。

36.Understanding H2 Evolution Electrochemistry to Minimize Solvated Water Impact on Zinc-Anode Performance.

了解析氫電化學(xué)以最大限度地減少溶劑化水對鋅陽極性能的影響。

37.Polarization Topology at the Nominally Charged Domain Walls in Uniaxial Ferroelectrics.

單軸鐵電體中標稱帶電疇壁的極化拓撲。

38.Confinement-Driven Inverse Domain Scaling in Polycrystalline ErMnO3.

多晶 ErMnO3 中約束驅(qū)動的逆域縮放。

39.Spintronic Physical Unclonable Functions Based on Field-Free Spin–Orbit-Torque Switching.

基于無場自旋軌道扭矩切換的自旋電子物理不可克隆函數(shù)。

40.A Versatile Molten-Salt Induction Strategy to Achieve Efficient CsPbI3 Perovskite Solar Cells with a High Open-Circuit Voltage >1.2 V.

一種多功能熔鹽感應(yīng)策略，可實現(xiàn)具有 >1.2 V 高開路電壓的高效 CsPbI3 鈣鈦礦太陽能電池。

41.Molecularly Engineered Unparalleled Strength and Supertoughness of Poly(urea-urethane) with Shape Memory and Clusterization-Triggered Emission.

觸發(fā)發(fā)射功能的分子工程聚（脲-聚氨酯）具有無與倫比的強度和超韌性。

42.Readily Accessible Metallic Micro-Island Arrays for High-Performance Metal Oxide Thin-Film Transistors.

用于高性能金屬氧化物薄膜晶體管的易于訪問的金屬微島陣列。

43.Etching Bulk Covalent Organic Frameworks into Nanoparticles of Uniform and Controllable Size by the Molecular Exchange Etching Method for Sonodynamic and Immune Combination Antitumor Therapy.

通過分子交換蝕刻方法將塊狀共價有機框架蝕刻成尺寸均勻且可控的納米顆粒，用于聲動力和免疫聯(lián)合抗腫瘤治療。

44.Observation of H2 Evolution and Electrolyte Diffusion on MoS2 Monolayer by In Situ Liquid-Phase Transmission Electron Microscopy.

通過原位液相透射電子顯微鏡觀察 MoS2 單層上的 H2 析出和電解質(zhì)擴散。

45.Bimetallic Rechargeable Al/Zn Hybrid Aqueous Batteries Based on Al–Zn Alloys with Composite Electrolytes.

基于鋁鋅合金和復(fù)合電解質(zhì)的雙金屬可充電鋁/鋅混合水電池。

46.Biomimetic Bacteriophage-Like Particles Formed from Probiotic Extracts and NO Donors for Eradicating Multidrug-Resistant Staphylococcus aureus.

由益生菌提取物和 NO 供體形成的仿生噬菌體樣顆粒，用于根除多重耐藥金黃色葡萄球菌。

47.Multiphase Morphology with Enhanced Carrier Lifetime via Quaternary Strategy Enables High-Efficiency, Thick-Film, and Large-Area Organic Photovoltaics.

通過四元策略增強載流子壽命的多相形態(tài)可實現(xiàn)高效、厚膜和大面積有機光伏。

48.Bioactive Iridium Nanoclusters with Glutathione Depletion Ability for Enhanced Sonodynamic-Triggered Ferroptosis-Like Cancer Cell Death.

具有谷胱甘肽消耗能力的生物活性銥納米簇可增強聲動力觸發(fā)的鐵死亡樣癌細胞死亡。

49.Synthetic Nanoarchitectonics of Functional Organic–Inorganic 2D Germanane Heterostructures via Click Chemistry.

合成功能性有機-無機二維鍺烷異質(zhì)結(jié)構(gòu)的納米結(jié)構(gòu)。

50.Efficient Short-Wave Infrared Light-Emitting Diodes Based on Heavy-Metal-Free Quantum Dots.

基于無重金屬量子點的高效短波紅外發(fā)光二極管。

51.Ethylene-Carbonate-Free Electrolytes for Rechargeable Li-Ion Pouch Cells at Sub-Freezing Temperatures.

用于低于冰點溫度的可充電鋰離子軟包電池的不含碳酸乙烯酯的電解質(zhì)。

52.An Activity-Based Photosensitizer to Reverse Hypoxia and Oxidative Resistance for Tumor Photodynamic Eradication.

一種基于活性的光敏劑，可逆轉(zhuǎn)缺氧和氧化抵抗，實現(xiàn)光動力根除腫瘤。

53.Mechano-Graded Electrodes Mitigate the Mismatch between Mechanical Reliability and Energy Density for Foldable Lithium-Ion Batteries.

機械分級電極可緩解可折疊鋰離子電池的機械可靠性和能量密度之間的不匹配。

54.Novel (Pt-Ox)-(Co-Oy) Nonbonding Active Structures on Defective Carbon from Oxygen-Rich Coal Tar Pitch for Efficient HER and ORR.

富氧煤焦油瀝青缺陷碳上的新型 (Pt-Ox)-(Co-Oy) 非鍵合活性結(jié)構(gòu)可實現(xiàn)高效 HER 和 ORR。

55.Construction of Active Protein Materials: Manipulation on Morphology of Salmon Calcitonin Assemblies with Enhanced Bone Regeneration Effect.

活性蛋白材料的構(gòu)建：對具有增強骨再生作用的鮭魚降鈣素組件的形態(tài)進行操控。

56.Designable Micro-/Nano-Structured Smart Polymeric Materials.

可設(shè)計的微/納米結(jié)構(gòu)智能高分子材料。

57.Development of Innovative Biomaterials and Devices for the Treatment of Cardiovascular Diseases.

開發(fā)治療心血管疾病的創(chuàng)新生物材料和設(shè)備。

58.Multifunctional Biomedical Materials Derived from Biological Membranes.

源自生物膜的多功能生物醫(yī)學(xué)材料。

59.Ternary Blend Organic Solar Cells: Understanding the Morphology from Recent Progress.

三元混合有機太陽能電池：從最新進展了解形態(tài)。

60.Functionalizing Framework Nucleic-Acid-Based Nanostructures for Biomedical Application.

用于生物醫(yī)學(xué)應(yīng)用的功能化框架核酸納米結(jié)構(gòu)。

61.Collagen Fiber-Based Advanced Separation Materials: Recent Developments and Future Perspectives.

基于膠原纖維的先進分離材料：最新發(fā)展和未來前景。

62.Advanced Flame-Retardant Methods for Polymeric Materials.

高分子材料的先進阻燃方法。

63.Mechanistically Scoping Cell-Free and Cell-Dependent Artificial Scaffolds in Rebuilding Skeletal and Dental Hard Tissues.

從機械角度探討無細胞和細胞依賴性人工支架在重建骨骼和牙齒硬組織中的作用。

64.Recent Advances in Delivery Systems for Genetic and Other Novel Vaccines.

基因疫苗和其他新型疫苗輸送系統(tǒng)的最新進展。

65.A Review on Mechanochemistry: Approaching Advanced Energy Materials with Greener Force.

機械化學(xué)綜述：以更綠色的力量接近先進能源材料。

66.A Lysosome-Activated Tetrahedral Nanobox for Encapsulated siRNA Delivery.

溶酶體激活四面體納米盒。

67.Ultrahigh Molecular Weight Polyethylene Lamellar-Thin Framework on Square Meter Scale.

平方米規(guī)模的超高分子量聚乙烯層狀薄框架。

68.Modulation of the Crosstalk between Schwann Cells and Macrophages for Nerve Regeneration: A Therapeutic Strategy Based on a Multifunctional Tetrahedral Framework Nucleic Acids System.

調(diào)節(jié)雪旺細胞和巨噬細胞之間的串?dāng)_以促進神經(jīng)再生：基于多功能四面體框架核酸系統(tǒng)的治療策略。