Featured
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Article
| Open AccessAnomalously bright single-molecule upconversion electroluminescence
The efficiency of upconversion electroluminescence remains very low for single-molecule emitters. Here, the authors report over one order of magnitude improvement in the emission efficiency via engineering energy-level alignments for triplet relayed upconversion involving only carrier injection.
- Yang Luo
- , Fan-Fang Kong
- & Zhen-Chao Dong
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Article
| Open AccessEfficient direct repairing of lithium- and manganese-rich cathodes by concentrated solar radiation
Rapid capacity decay and voltage drop hinder lithium- and manganese-rich cathode material (LMRO) development. Here, the authors apply concentrated solar radiation arrays on cycled LMRO electrodes, inducing inverse spinel phase to boost redox activity and reversibility, yielding enhanced electrochemical performance.
- Hailong Wang
- , Xin Geng
- & Xin He
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Article
| Open AccessIn situ modulating coordination fields of single-atom cobalt catalyst for enhanced oxygen reduction reaction
The electrochemical oxygen reduction reaction plays an important role in new energy technologies such as fuel cells and metal-air batteries. Here the authors present a cobalt catalyst with a symmetry-broken Cl−Co−N4 moiety capable of dynamically modulating electron occupancy at active sites during practical reaction conditions to optimize oxygen reduction performance.
- Meihuan Liu
- , Jing Zhang
- & Qinghua Liu
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Article
| Open AccessDirect in-situ insights into the asymmetric surface reconstruction of rutile TiO2 (110)
The reconstruction of rutile TiO2 (110) impacts its surface chemistry and catalytic properties. Here, the authors offer a detailed understanding of the asymmetric surface reconstruction of TiO2 (110)-(1×2) through a combination of STEM and DFT calculations.
- Wentao Yuan
- , Bingwei Chen
- & Yong Wang
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Article
| Open AccessUnveiling the nature of Pt-induced anti-deactivation of Ru for alkaline hydrogen oxidation reaction
Despite the high intrinsic activity of Ru for hydrogen oxidation reaction, the surface oxidation-induced deactivation limits the application. Here, the authors report the introduction of Pt atoms could prevent the surface oxidation-related interfacial water network damage, preventing the deactivation of Ru.
- Yanyan Fang
- , Cong Wei
- & Gongming Wang
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Article
| Open AccessIterative design of training data to control intricate enzymatic reaction networks
Kinetic modeling of in vitro enzymatic reaction networks (ERNs) is severely hampered by the lack of training data. Here, authors introduce a methodology that combines an active learning-like approach and flow chemistry to create optimized datasets for an intricate ERN.
- Bob van Sluijs
- , Tao Zhou
- & Wilhelm T. S. Huck
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Article
| Open AccessPhotocured room temperature phosphorescent materials from lignosulfonate
It is elusive to manufacture room temperature phosphorescent (RTP) materials through effective and ambient processing approaches. Here the authors report the production of photocured RTP materials using lignosulfonate to act as RTP chromophore and photoinitiator, achieving easy preparation, low cost and good performance.
- Hongda Guo
- , Mengnan Cao
- & Zhijun Chen
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Article
| Open AccessTunable afterglow for mechanical self-monitoring 3D printing structures
Organic afterglow materials have potential in self-monitoring applications but it is challenging to design materials with desired properties. Here, the authors report the development of a lifetime tunable organic afterglow system for use in mechanical self-monitoring 3D printed structures.
- Rongjuan Huang
- , Yunfei He
- & Wei Huang
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Article
| Open AccessLarge dynamics of a phase separating arginine-glycine-rich domain revealed via nuclear and electron spins
The authors show the RNA-induced droplet formation by a component of Cajal bodies and reveal the large nanoseconds mobility of glycine residues inside droplets as a molecular factor potentially contributing to the large dynamics of Cajal bodies.
- Giuseppe Sicoli
- , Daniel Sieme
- & Nasrollah Rezaei-Ghaleh
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Article
| Open AccessSmart touchless human–machine interaction based on crystalline porous cages
Smart sensors are important components in the development of touchless human-machine interaction systems. Here, the authors describe a smart 3D porous crystalline organic cage-based system that exhibits remarkable responsiveness to fingertip humidity, contributing to the advancement of touchless human-machine interaction technology.
- Jinrong Wang
- , Weibin Lin
- & Niveen M. Khashab
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Article
| Open AccessIntegrating single-cell and spatially resolved transcriptomic strategies to survey the astrocyte response to stroke in male mice
Astrocytes adopt diverse states in response to brain injuries. Here, the authors develop a platform for spatially resolved, single-cell transcriptomics and proteomics, called tDISCO (tissue-digital microfluidic isolation of single cells for -Omics) to uncover the spatial boundaries of molecularly distinct reactive astrocyte populations in stroke.
- Erica Y. Scott
- , Nickie Safarian
- & Maryam Faiz
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Article
| Open AccessUltrathin, ultralight dual-scale fibrous networks with high-infrared transmittance for high-performance, comfortable and sustainable PM0.3 filter
Development of high-performance, comfortable and sustainable air filters is challenging. Here, authors design an ultrathin, ultralight dual scale fiber mat composed of true nanofibers and submicron-fibers to integrate the high protection, thermal wet comfort and save raw materials.
- Yuchen Yang
- , Xiangshun Li
- & Yuekun Lai
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Article
| Open Access4D printed hydrogel scaffold with swelling-stiffening properties and programmable deformation for minimally invasive implantation
3D printing has potential in designing personalised scaffolds, but minimally invasive implantation is still challenging. Here, the authors report the development of a polyurethane material with temperature triggered shape memory and water triggered deformation that allows for transcatheter delivery.
- Bo Liu
- , Hui Li
- & Xiaoli Zhao
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Article
| Open AccessSpontaneous crystallization of strongly confined CsSnxPb1-xI3 perovskite colloidal quantum dots at room temperature
Photoactive pure-iodine all-inorganic colloidal perovskite quantum dots (QDs) are attractive for optoelectronic applications, however their synthesis at room temperature is challenging. Here the authors report a room temperature strongly confined strategy to synthesize CsSnxPb1-xI3 QDs.
- Louwen Zhang
- , Hai Zhou
- & Guojia Fang
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Article
| Open AccessSuperexchange-stabilized long-distance Cu sites in rock-salt-ordered double perovskite oxides for CO2 electromethanation
Cu-oxide-based catalysts are promising for CO2 electromethanation but suffer from inevitable reduction and structural collapse. Here the authors report a Cu-based rock-salt-ordered double perovskite oxide with superexchange-stabilized long-distance Cu sites for efficient and stable CO2 methanation.
- Jiawei Zhu
- , Yu Zhang
- & Heqing Jiang
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Article
| Open AccessRationally designed nanotrap structures for efficient separation of rare earth elements over a single step
Extracting rare earth elements (REEs) from wastewater is essential for the growth of an eco-friendly sustainable economy but separating individual rare earth elements remains challenging. Here, the authors report a REE nanotrap that features dense uncoordinated carboxyl groups and triazole N atoms in a two-fold interpenetrated metalorganic framework which is highly responsive to the size variation of rareearth ions.
- Qing-Hua Hu
- , An-Min Song
- & Jian-Ding Qiu
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Article
| Open AccessHarmonic amide bond density as a game-changer for deciphering the crosslinking puzzle of polyamide
Relating the degree of network crosslinking as a descriptor to the desalination performance of crosslinked polymer membranes remains challenging. Here, the authors introduce a parameter based on distinct amide bonds per unit mass of polyamide, to unravel the relationship between the crosslinked networks of polyamide membranes and their desalination performance.
- Yu-Ren Xue
- , Chang Liu
- & Zhi-Kang Xu
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Article
| Open AccessEfficient catalyst-free N2 fixation by water radical cations under ambient conditions
The growth and sustainable development of humanity is heavily dependent upon N2 fixation. Herein, authors developed an ambient catalyst-free disproportionation of N2 by water plasma to yield economically valuable nitroxyl and hydroxylamine products.
- Xiaoping Zhang
- , Rui Su
- & Huanwen Chen
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Article
| Open AccessCooperative Cu/azodiformate system-catalyzed allylic C–H amination of unactivated internal alkenes directed by aminoquinoline
The oxidative intermolecular amination of C-H bonds represents a straightforward method to construct aliphatic allylic amines. However, the utilization of widely available internal alkenes remains a synthetic challenge. Here, the authors present a regioselective Cu-catalyzed oxidative allylic C-H amination of internal olefins with azodiformates.
- Le Wang
- , Cheng-Long Wang
- & Shu-Yu Zhang
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Article
| Open AccessMetal-free photocatalytic cross-electrophile coupling enables C1 homologation and alkylation of carboxylic acids with aldehydes
Enhancing the sp3-hybridized character of molecular structures in drug discovery is paramount. Here, the authors introduce a deoxygenative cross-electrophile coupling technique that pairs easily accessible carboxylic acid-derived redox-active esters with aldehyde sulfonyl hydrazones, employing Eosin Y as an organophotocatalyst under visible light irradiation.
- Stefano Bonciolini
- , Antonio Pulcinella
- & Timothy Noël
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Article
| Open AccessLiquid Madelung energy accounts for the huge potential shift in electrochemical systems
Electrode potential in any electrochemical systems has long been discussed by classical Debye-Hückel theory which holds only under extremely dilute concentrations. Here, the authors establish the concept ‘liquid Madelung potential’ to comprehensively describe the potential shift at practical concentrations.
- Norio Takenaka
- , Seongjae Ko
- & Atsuo Yamada
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Article
| Open AccessComplexation-driven assembly of imine-linked helical receptors showing adaptive folding and temperature-dependent guest selection
The development of synthetic receptors capable of selectively binding monosaccharides is highly challenging. Here, authors present the efficient synthesis of these receptors based on foldamers, achieved through complexation-induced equilibrium shifting.
- Geunmoo Song
- , Seungwon Lee
- & Kyu-Sung Jeong
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Article
| Open AccessKirkendall effect-induced uniform stress distribution stabilizes nickel-rich layered oxide cathodes
Nickel-rich layered oxide cathodes offer high energy density yet suffer from mechanical degradation during (de)lithiation. Here, the authors present a strategy that leverages the Kirkendall effect to equalize stress within the cathode particles, thereby stabilizing their structure and enhancing the cycling stability.
- Ziyao Gao
- , Chenglong Zhao
- & Baohua Li
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Article
| Open AccessA high-current hydrogel generator with engineered mechanoionic asymmetry
Mechanoelectric energy conversion is a potential solution for the power supply of soft devices, but the low current output for low frequency motions limits its applicability. Here, the authors report a hydrogel generator with mechanoionic current generation amplified by orders of magnitudes and its application as controlled drug-releasing system for wound healing.
- Hongzhen Liu
- , Xianglin Ji
- & Lizhi Xu
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Article
| Open AccessIron-catalyzed fluoroalkylative alkylsulfonylation of alkenes via radical-anion relay
Stoichiometric amounts of metal reductant and the requirement of a directing group limit the application of transition metal-catalyzed reductive difunctionalization of alkenes with alkyl halides. Here, the authors report a reductive difunctionalization of alkenes via a radical-anion relay with Na2S2O4 as both reductant and sulfone-source.
- Xiaoya Hou
- , Hongchi Liu
- & Hanmin Huang
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Review Article
| Open AccessChallenges and recent advancements in the synthesis of α,α-disubstituted α-amino acids
α,α-Disubstituted α-amino acids (α-AAs) have improved properties compared to other amino acids. Here, the authors provide an overview of the recent advancements since 2015 and discuss existing challenges for their synthesis.
- Yu Zhang
- , Jaro Vanderghinste
- & Shoubhik Das
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Article
| Open AccessCircular olefin copolymers made de novo from ethylene and α-olefins
Although several advances have been made in chemical Polyethylene (PE) re- and upcycling, energy-efficient and selective catalytic processes are still lacking. Here, the authors show coupling of an industrially relevant coordination copolymerization olefins with a functionalized chain-transfer agent, followed by modular assembly of the resulting telechelic polyolefin building blocks by polycondensation to afford ester-linked PE-based random and block copolymers which exhibit full chemical circularity.
- Xing-Wang Han
- , Xun Zhang
- & Yong Tang
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Article
| Open AccessOxygen-tolerant CO2 electroreduction over covalent organic frameworks via photoswitching control oxygen passivation strategy
Direct use of flue gas for the electrocatalytic CO2 reduction reaction is desirable but severely limited by the thermodynamically favorable oxygen reduction reaction. Here the authors report an oxygen passivation strategy to improve electrocatalytic CO2 reduction reaction under aerobic conditions using a covalent organic frameworks with a photoswitching unit.
- Hong-Jing Zhu
- , Duan-Hui Si
- & Yuan-Biao Huang
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Article
| Open AccessTuning ferroelectric phase transition temperature by enantiomer fraction
The enantiomer fraction strategy can achieve continuous control of the phase transition temperature, chiroptical properties, SHG intensity and other properties of chiral two-dimensional lead bromide ferroelectrics.
- Chang-Chun Fan
- , Cheng-Dong Liu
- & Wen Zhang
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Article
| Open AccessPromoting high-voltage stability through local lattice distortion of halide solid electrolytes
Solid electrolytes play a crucial role as ion conductors and separator between electrodes in all-solid-state batteries. Here, the authors report a high-entropy halide solid electrolyte, which reveals the structure evolution with the increasing configurational entropy and improves the high-voltage stability.
- Zhenyou Song
- , Tengrui Wang
- & Wei Luo
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Article
| Open AccessElucidation of the role of metals in the adsorption and photodegradation of herbicides by metal-organic frameworks
In this study, the authors explored the correlation between the structure and optoelectronic properties of metal organic frameworks for the removal of a harmful herbicide from water.
- Nan Chieh Chiu
- , Jacob M. Lessard
- & Kyriakos C. Stylianou
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Article
| Open AccessAccessing ladder-shape azetidine-fused indoline pentacycles through intermolecular regiodivergent aza-Paternò–Büchi reactions
Conformationally rigid 3D molecules are of high interest. Here the authors develop intermolecular aza-Paternò-Büchi reactions to access ladder-shape azetidine-fused indoline pentacycles with excellent regiodivergency and stereoselectivity.
- Jianjian Huang
- , Tai-Ping Zhou
- & Fangrui Zhong
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Article
| Open AccessCharacterization of A π–π stacking cocrystal of 4-nitrophthalonitrile directed toward application in photocatalysis
Photoexcitation of the electron-donor-acceptor (EDA) complexes are an effective approach to achieve radicals by triggering electron transfer but the catalytic version of EDA complex photoactivation remains underdeveloped. Here, the authors introduce 4-nitrophthalonitrile as an electron acceptor to facilitate π-stacking with electron-rich aromatics to form EDA complexes.
- Ting Xue
- , Cheng Ma
- & Rong Zeng
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Article
| Open AccessPhotooxidation driven formation of Fe-Au linked ferrocene-based single-molecule junctions
Metal-metal interfaces hold promise as contacting moieties for single-molecule devices with tunable functionality, yet the direct bonding has remained a challenge. Here, Lee et al. report the formation of Fe-Au bond without chemical ligand support in ferrocene-based molecular junctions.
- Woojung Lee
- , Liang Li
- & Latha Venkataraman
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Article
| Open AccessA general supramolecular strategy for fabricating full-color-tunable thermally activated delayed fluorescence materials
Thermally activated delayed fluorescence materials with full-colour tunability are desirable but challenging to prepare. Here, the authors report a method for preparing such materials through the design of host-guest cocrystals with through-space charge transfer.
- Nan Xue
- , He-Ye Zhou
- & Chuan-Feng Chen
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Article
| Open AccessDifficulty in chirality recognition for Transformer architectures learning chemical structures from string representations
There has been limited research on how NLP models comprehend diverse chemical structures despite its popularity. Here, the authors examine the learning process of Transformer for chemical structures and show inherent issues for chirality recognition.
- Yasuhiro Yoshikai
- , Tadahaya Mizuno
- & Hiroyuki Kusuhara
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Article
| Open AccessFacilitating alkaline hydrogen evolution reaction on the hetero-interfaced Ru/RuO2 through Pt single atoms doping
Exploring an active and cost-effective catalyst for alkaline hydrogen evolution reaction remains elusive to date. Here, the authors report the platinum single-atoms doped ruthenium/ruthenium oxides showing distinctly enhanced catalytic performance.
- Yiming Zhu
- , Malte Klingenhof
- & Jiwei Ma
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Article
| Open AccessIntegrating hydrogen utilization in CO2 electrolysis with reduced energy loss
Electrochemical CO2 reduction is a promising method of producing sustainable chemicals and fuels, yet is highly energy intensive. Here, the authors couple CO2 electrolysis with hydrogen oxidation using a Ni(OH)2/NiOOH auxiliary electrode to enhance energy efficiency.
- Xiaoyi Jiang
- , Le Ke
- & Ning Yan
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Article
| Open AccessReconstitution of early paclitaxel biosynthetic network
Paclitaxel is an important anticancer drug whose biosynthetic pathway reconstruction is hindered by the propensity of heterologously expressed pathway cytochromes P450, including taxadiene 5α-hydroxylase (T5αH), to form multiple products. Here, the authors tune the promoter strength for T5αH expression in Nicotiana plants to increase the levels of paclitaxel precursor taxadien-5α-ol by three-fold and reconstitute the six step early biosynthetic pathway of paclitaxel.
- Jack Chun-Ting Liu
- , Ricardo De La Peña
- & Elizabeth S. Sattely
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Article
| Open AccessComputational redesign of a hydrolase for nearly complete PET depolymerization at industrially relevant high-solids loading
The application of the LCC variant of polyethylene terephthalate (PET) hydrolase for industrial degradation of PET has been hindered by the 10% of nonbiodegradable PET. Here, the authors use a computational strategy to engineer TurboPETase which outperforms other PETase variants and achieves nearly complete depolymerization of the postconsumer PET bottles at a high, industrially relevant, level of solids loading.
- Yinglu Cui
- , Yanchun Chen
- & Bian Wu
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Article
| Open AccessElectrocatalytic water oxidation with manganese phosphates
Understanding water oxidation on Mn-based catalysts remains a long-standing challenge. Here, the authors use homologous KMnPO4 and KMnPO4•H2O as model catalyst to show that Mn(V)=O is responsible for O−O bond formation and its concentration determines the intrinsic activity.
- Shujiao Yang
- , Kaihang Yue
- & Wei Zhang
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Article
| Open AccessDynamics of activation in the voltage-sensing domain of Ciona intestinalis phosphatase Ci-VSP
Understanding the molecular basis of voltage-sensing is of great importance in biology. Here, the authors use computational analysis and simulations to reveal atomic level insights into the mechanism of an isolated voltage-sensing domain.
- Spencer C. Guo
- , Rong Shen
- & Aaron R. Dinner
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Article
| Open AccessHigh-spin Co3+ in cobalt oxyhydroxide for efficient water oxidation
Regulating spin state of metal cations in catalysts is recognized as a strategy to improve water oxidation. Herein, the authors constructed high-spin cobalt ions in cobalt oxyhydroxides, experimentally demonstrating accelerated electron transfer ability and thereby superior water oxidation performance.
- Xin Zhang
- , Haoyin Zhong
- & Junmin Xue
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Article
| Open AccessCa-dimers, solvent layering, and dominant electrochemically active species in Ca(BH4)2 in THF
Alternatives to lithium-ion electrochemistry present challenges due to undesirable phenomena at the electrode-electrolyte interface. Through simulations, the authors find that the performance of a calcium-based electrolyte is driven entirely by molecular-scale processes within approximately 1 nm of the electrode.
- Ana Sanz Matias
- , Fabrice Roncoroni
- & David Prendergast
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Perspective
| Open AccessPerformance metrics to unleash the power of self-driving labs in chemistry and materials science
Assessing the performance of self-driving labs (SDLs) is challenging due to the specificities of each experiment. In this Perspective, the authors review recent literature of SDLs for materials science and chemistry and suggest how to report SDL performance more effectively.
- Amanda A. Volk
- & Milad Abolhasani
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Article
| Open AccessCross-catenation between position-isomeric metallacages
The study of cross-catenated metallacages could provide facile insights into achieving more precise control over low-symmetry/high-complexity hierarchical assembly systems but is currently lacking. Here, the authors report a cross-catenane formed between two position-isomeric Pt(II) metallacages in the solid state.
- Yiliang Wang
- , Taotao Liu
- & Jun Li
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Article
| Open AccessOperando investigation of the synergistic effect of electric field treatment and copper for bacteria inactivation
The overuse of chemicals in our disinfection processes has warranted the development of alternatives. Here, authors use a lab-on-a-chip device to study and observe the synergistic effects of electric field treatment and copper for inactivation of bacteria with promising applications in many fields.
- Mourin Jarin
- , Ting Wang
- & Xing Xie
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Article
| Open AccessHierarchical Li electrochemistry using alloy-type anode for high-energy-density Li metal batteries
Utilizing an ultra-thin Li anode with a thickness below 50 μm is crucial for enhancing the energy density of batteries. Here, the authors develop a finely tunable, thin alloy-based Li anode that features a hierarchical Li electrochemistry, enabling stable cycling and superior energy density in Li metal batteries.
- Jiaqi Cao
- , Yuansheng Shi
- & Xia Lu
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Article
| Open AccessCoordination-induced O-H/N-H bond weakening by a redox non-innocent, aluminum-containing radical
Coordination-induced bond weakening (CIBW) by redox-active metals is used to weaken bonds in water and ammonia to facilitate proton-coupled electron transfer but achieving CIBW using aluminium as abundant metal is challenging. Here, the authors report a system that uses aluminum with a redox non-innocent ligand to achieve CIBW of O-H and N-H bonds.
- Soumen Sinhababu
- , Roushan Prakash Singh
- & Neal P. Mankad
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