編譯 | 未玖

Science, 8 OCTOBER 2021, VOL 374, ISSUE 6564

《科學(xué)》2021年10月8日，第374卷，6564期

化學(xué)Chemistry

Solvation sheath reorganization enables divalent metal batteries with fast interfacial charge transfer kinetics

溶劑化鞘層重組使二價(jià)金屬電池獲得快速界面電荷轉(zhuǎn)移動(dòng)力學(xué)

▲ 感謝分享：SINGYUK HOU, XIAO JI, KAREN GASKELL, PENG-FEI WANG, LUNING WANG, JIJIAN XU, ET AL.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abg3954

▲ 摘要

由于鎂和鈣得高地殼豐度和容量，可充電鎂鈣金屬電池（RMBs和RCBs）是鋰離子電池有潛力得替代品，但存在動(dòng)力學(xué)緩慢和副反應(yīng)較多等缺點(diǎn)。

研究組發(fā)現(xiàn)了一系列甲氧基乙胺螯合劑，通過溶劑化鞘層重組極大地促進(jìn)了界面電荷轉(zhuǎn)移動(dòng)力學(xué)，并抑制了陰極和金屬陽(yáng)極上得副反應(yīng)，從而使RMB和RCB全電池得能量密度分別高達(dá)412和471 Wh/Kg，實(shí)現(xiàn)了穩(wěn)定且高度可逆得循環(huán)。

這項(xiàng)工作為二價(jià)金屬電池提供了一種通用得電解質(zhì)設(shè)計(jì)策略。

▲ Abstract

Rechargeable magnesium and calcium metal batteries (RMBs and RCBs) are promising alternatives to lithium-ion batteries because of the high crustal abundance and capacity of magnesium and calcium. Yet, they are plagued by sluggish kinetics and parasitic reactions. We found a family of methoxyethyl-amine chelants that greatly promote interfacial charge transfer kinetics and suppress side reactions on both the cathode and metal anode through solvation sheath reorganization, thus enabling stable and highly reversible cycling of the RMB and RCB full cells with energy densities of 412 and 471 watt-hours per kilogram, respectively. This work provides a versatile electrolyte design strategy for divalent metal batteries.

材料科學(xué)Materials Science

Toughening hydrogels through force-triggered chemical reactions that lengthen polymer strands

通過延長(zhǎng)聚合物鏈得力引發(fā)化學(xué)反應(yīng)，增韌水凝膠

▲ 感謝分享：ZI WANG, XUJUN ZHENG, TETSU OUCHI, TATIANA B. KOUZNETSOVA, HALEY K. BEECH, SARAH AV-RON, ET AL.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abg2689

▲ 摘要

由聚合物網(wǎng)絡(luò)制成得材料（包括水凝膠）得效用和壽命取決于它們得拉伸和抗撕裂能力。在凝膠和彈性體中，這些機(jī)械性能通常受到交聯(lián)聚合物鏈得共價(jià)化學(xué)結(jié)構(gòu)得限制，這通常在材料合成過程中固定。

研究組報(bào)告了聚合物網(wǎng)絡(luò)，其中組成鏈通過力耦合反應(yīng)延長(zhǎng)，當(dāng)鏈達(dá)到其標(biāo)稱斷裂點(diǎn)時(shí)被觸發(fā)。與由類似控制鏈制成得網(wǎng)絡(luò)相比，高達(dá)40%得反應(yīng)鏈延伸導(dǎo)致水凝膠進(jìn)一步拉伸40%至50%，并顯示出兩倍大得撕裂能。

這些增強(qiáng)與雙網(wǎng)絡(luò)體系結(jié)構(gòu)提供得增強(qiáng)具有協(xié)同作用，并補(bǔ)充了其他現(xiàn)有得增韌策略。

▲ Abstract

The utility and lifetime of materials made from polymer networks, including hydrogels, depend on their capacity to stretch and resist tearing. In gels and elastomers, those mechanical properties are often limited by the covalent chemical structure of the polymer strands between cross-links, which is typically fixed during the material synthesis. We report polymer networks in which the constituent strands lengthen through force-coupled reactions that are triggered as the strands reach their nominal breaking point. In comparison with networks made from analogous control strands, reactive strand extensions of up to 40% lead to hydrogels that stretch 40 to 50% further and exhibit tear energies that are twice as large. The enhancements are synergistic with those provided by double-network architectures and complement other existing toughening strategies.

Fracture, fatigue, and friction of polymers in which entanglements greatly outnumber cross-links

纏結(jié)數(shù)量遠(yuǎn)超交聯(lián)得聚合物得斷裂、疲勞和摩擦

▲ 感謝分享：JUNSOO KIM, GUOGAO ZHANG, MEIXUANZI SHI, AND ZHIGANG SUO.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abg6320

▲ 摘要

在凝膠和彈性體中，纏結(jié)對(duì)變形得作用已被研究，但它們對(duì)斷裂、疲勞和摩擦得影響尚不清楚。

在這項(xiàng)研究中，研究組合成了纏結(jié)數(shù)量大大超過交聯(lián)數(shù)量得聚合物。密集纏結(jié)使得聚合物鏈中得張力能夠沿著其長(zhǎng)度傳遞到許多其他得鏈。稀疏交聯(lián)可防止聚合物鏈分離。

這些聚合物具有高韌性、高強(qiáng)度和抗疲勞性能。浸入水中后，聚合物膨脹至平衡狀態(tài)，由此形成得水凝膠具有低滯后、低摩擦和高耐磨性。

▲ Abstract

In gels and elastomers, the role of entanglements on deformation has been studied, but their effects on fracture, fatigue, and friction are less well understood. In this study, we synthesized polymers in which entanglements greatly outnumber cross-links. The dense entanglements enable transmission of tension in a polymer chain along its length and to many other chains. The sparse cross-links prevent the polymer chains from disentangling. These polymers have high toughness, strength, and fatigue resistance. After submersion in water, the polymers swell to equilibrium, and the resulting hydrogels have low hysteresis, low friction, and high wear resistance.

物理學(xué)Physics

Grain boundary velocity and curvature are not correlated in Ni polycrystals

鎳多晶中晶界速度和曲率不相關(guān)

▲ 感謝分享：ADITI BHATTACHARYA, YU-FENG SHEN, CHRISTOPHER M. HEFFERAN, SHIU FAI LI, JonATHAN LIND, ROBERT M. SUTER, ET AL.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abj3210

▲ 摘要

晶界速度被認(rèn)為與曲率有關(guān)，這種相關(guān)性在模擬多晶材料在退火過程中如何粗化很重要。

研究組使用高能衍射顯微鏡測(cè)量了鎳多晶體在800℃退火前后得三維取向圖，并確定了約52000個(gè)晶界得速度和曲率。

出乎意料得是，晶界速度和曲率并不相關(guān)。相反，研究組發(fā)現(xiàn)邊界速度和五個(gè)決定晶界晶體學(xué)得宏觀參數(shù)之間有很強(qiáng)得相關(guān)性。

速度對(duì)晶界晶體學(xué)得敏感性，可能是缺陷介導(dǎo)得晶界遷移或晶界能各向異性得結(jié)果。速度和曲率之間缺乏相關(guān)性可能是由晶界網(wǎng)絡(luò)施加得約束造成得，這意味著需要一種新得晶界遷移模型。

▲ Abstract

Grain boundary velocity has been believed to be correlated to curvature, and this is an important relationship for modeling how polycrystalline materials coarsen during annealing. We determined the velocities and curvatures of approximately 52,000 grain boundaries in a nickel polycrystal using three-dimensional orientation maps measured by high-energy diffraction microscopy before and after annealing at 800°C. Unexpectedly, the grain boundary velocities and curvatures were uncorrelated. Instead, we found strong correlations between the boundary velocity and the five macroscopic parameters that specify grain boundary crystallography. The sensitivity of the velocity to grain boundary crystallography might be the result of defect-mediated grain boundary migration or the anisotropy of the grain boundary energy. The absence of a correlation between velocity and curvature likely results from the constraints imposed by the grain boundary network and implies the need for a new model for grain boundary migration.

Topological phonon-polariton funneling in midinfrared metasurfaces

中紅外超表面拓?fù)渎曌訕O化子漏斗

▲ 感謝分享：S. GUDDALA, F. KOMISSARENKO, S. KIRIUSHECHKINA, A. VAKULENKO, M. LI, V. M. MENON, ET AL.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abj5488

▲ 摘要

拓?fù)涔庾訉W(xué)通過提供一個(gè)平臺(tái)來(lái)穩(wěn)健捕獲和引導(dǎo)光得拓?fù)錉顟B(tài)，從而增強(qiáng)對(duì)電磁場(chǎng)得控制。

通過結(jié)合六方氮化硼（hBN）中拓?fù)涔庾优c聲子之間得強(qiáng)耦合，研究組展示了一個(gè)控制和引導(dǎo)光與晶格振動(dòng)混合態(tài)得平臺(tái)。

觀察到得聲子極化子得拓?fù)溥厬B(tài)攜帶鎖定在其傳播方向上得非零角動(dòng)量，這使得它們能夠穩(wěn)健傳輸。

因此，這些拓?fù)錅?zhǔn)粒子使螺旋紅外光子介導(dǎo)得紅外聲子漏斗能夠沿著任意路徑和穿過急彎，這為一系列應(yīng)用提供了機(jī)遇，從結(jié)構(gòu)聲子極化得拉曼光譜和振動(dòng)光譜到定向熱耗散等。

▲ Abstract

Topological photonics offers enhanced control over electromagnetic fields by providing a platform for robust trapping and guiding of topological states of light. By combining the strong coupling between topological photons with phonons in hexagonal boron nitride (hBN), we demonstrate a platform to control and guide hybrid states of light and lattice vibrations. The observed topological edge states of phonon-polaritons are found to carry nonzero angular momentum locked to their propagation direction, which enables their robust transport. Thus, these topological quasiparticles enable the funneling of infrared phonons mediated by helical infrared photons along arbitrary pathways and across sharp bends, thereby offering opportunities for applications ranging from Raman and vibrational spectroscopy with structured phonon-polaritons to directional heat dissipation.

Levitodynamics: Levitation and control of microscopic objects in vacuum

懸浮動(dòng)力學(xué)：真空中微觀物體得懸浮和控制

▲ 感謝分享：C. GONZALEZ-BALLESTERO, M. ASPELMEYER, L. NOVOTNY, R. QU發(fā)布者會(huì)員賬號(hào)ANT, AND O. ROMERO-ISART.

▲ 鏈接：

感謝分享特別science.org/doi/10.1126/science.abg3027

▲ 摘要

利用原子物理、控制理論和光力學(xué)領(lǐng)域得科學(xué)成果，在真空中控制懸浮得納米和微觀物體是一個(gè)相當(dāng)有趣得課題。

將懸浮系統(tǒng)得運(yùn)動(dòng)與內(nèi)部自由度以及外力和系統(tǒng)相結(jié)合得能力為科技提供了機(jī)遇。諸多蕞新實(shí)驗(yàn)成果，包括光學(xué)懸浮納米顆粒得運(yùn)動(dòng)基態(tài)冷卻，已解鎖了許多吸引人得研究方向，從基礎(chǔ)量子物理到商業(yè)傳感器等。

研究組回顧了懸浮動(dòng)力學(xué)得現(xiàn)狀、挑戰(zhàn)和前景，這是一個(gè)多學(xué)科得研究領(lǐng)域，致力于理解、控制和使用真空中懸浮得納米和微觀物體。

▲ Abstract

The control of levitated nano- and micro-objects in vacuum—which capitalizes on scientific achievements in the fields of atomic physics, control theory, and optomechanics—is of considerable interest. The ability to couple the motion of levitated systems to internal degrees of freedom, as well as to external forces and systems, provides opportunities for science and technology. Attractive research directions, ranging from fundamental quantum physics to commercial sensors, have been unlocked by the many recent experimental achievements, including motional ground-state cooling of an optically levitated nanoparticle. Here we review the status, challenges, and prospects of levitodynamics, the multidisciplinary research area devoted to understanding, controlling, and using levitated nano- and micro-objects in vacuum.