Featured
-
-
Article
| Open AccessMonosymmetric Fe-N4 sites enabling durable proton exchange membrane fuel cell cathode by chemical vapor modification
The limited durability of metal-nitrogen-carbon electrocatalysts hinders their use in proton exchange membrane fuel cells for the oxygen reduction reaction. Here the authors transform active sites from FeN4 to stable monosymmetric FeN2 + N’2 via chemical vapor modification, resulting in enhanced improving the durability of the catalyst.
- Jingsen Bai
- , Tuo Zhao
- & Wei Xing
-
Article
| Open AccessPolyoxometalate-based plasmonic electron sponge membrane for nanofluidic osmotic energy conversion
Nanofluidic membranes have great potential in harvesting osmotic energy, but performance is hampered by insufficient permselectivity. Here, the authors solve this problem with a polyoxometalate-based nanofluidic plasmonic electron sponge membrane.
- Chengcheng Zhu
- , Li Xu
- & Chen Wang
-
Article
| Open AccessA scalable Li-Al-Cl stratified structure for stable all-solid-state lithium metal batteries
Sulfide electrolytes’ incompatibility with Li metal hinders their use in all-solid-state Li metal batteries. Here, the authors propose a scalable Li-Al-Cl stratified structure, formed via strain-activated phase separation, to effectively stabilize the negative electrode/electrolyte interface.
- Han Su
- , Jingru Li
- & Jiangping Tu
-
Article
| Open AccessIon pair sites for efficient electrochemical extraction of uranium in real nuclear wastewater
Electrochemical uranium extraction from real nuclear wastewater is appealing but challenging. Herein, Lin et al develop a strategy of ion pair site for enhanced binding of dominant uranium fluoride species in real wastewater, achieving efficient recycling of uranium as powder product.
- Tao Lin
- , Tao Chen
- & Rong He
-
Article
| Open AccessSingle-zinc vacancy unlocks high-rate H2O2 electrosynthesis from mixed dioxygen beyond Le Chatelier principle
The principle of Le Chatelier is a fundamental concept in textbooks, serving as a guiding principle for controlling chemical and catalytic systems. In this study, the authors present an oxygen electroreduction system based on a single zinc vacancy catalyst, which operates in a manner that extends “beyond” Le Chatelier’s principle.
- Qi Huang
- , Baokai Xia
- & Sheng Chen
-
Comment
| Open AccessA critical discussion of the current availability of lithium and zinc for use in batteries
Aqueous zinc batteries are currently being explored as potential alternatives to non-aqueous lithium-ion batteries. In this comment, the authors highlight zinc’s global supply chain resilience and lower material costs yet caution about its higher mass requirement for comparable charge storage.
- Alessandro Innocenti
- , Dominic Bresser
- & Stefano Passerini
-
Article
| Open AccessSustainable upcycling of mixed spent cathodes to a high-voltage polyanionic cathode material
Direct recycling of critical battery materials bring promise but a challenge for the mixed cathode chemistries. Here, the authors report a sustainable upcycling approach, transforming degraded LiFePO4 and Mn-rich cathodes into a high-voltage polyanionic material with an increased energy density and economic value.
- Guanjun Ji
- , Di Tang
- & Hui-Ming Cheng
-
Article
| Open AccessOperando Raman spectroscopy uncovers hydroxide and CO species enhance ethanol selectivity during pulsed CO2 electroreduction
Controlling the selectivity of the electroreduction of CO2 to value-added products is challenging. Here, authors use sub-second operando Raman spectroscopy to analyze Cu catalyst surfaces and discover the pivotal role of co-adsorbed OH and CO in enhancing ethanol selectivity.
- Antonia Herzog
- , Mauricio Lopez Luna
- & Beatriz Roldan Cuenya
-
Article
| Open AccessBicontinuous RuO2 nanoreactors for acidic water oxidation
Developing stable water oxidation catalysts is of great importance for proton-exchange membrane water electrolyzers. Here the authors report a bicontinuous nanoreactor composed of multiscale defected RuO2 nanocrystals for robust acidic water oxidation reactivity.
- Ding Chen
- , Ruohan Yu
- & Shichun Mu
-
Article
| Open AccessA locally solvent-tethered polymer electrolyte for long-life lithium metal batteries
Solid polymer electrolytes containing N,N-dimethylformamide (DMF) exhibit improved Li+ conductivity but poor cycle life due to incompatibility between the Li metal anode and DMF. Here, the authors report a polymer electrolyte composited with Hofmann-DMF complex that achieves both high Li+ conductivity and long cycle life.
- Yanfei Zhu
- , Zhoujie Lao
- & Guangmin Zhou
-
Article
| Open AccessHigh yield electrosynthesis of oxygenates from CO using a relay Cu-Ag co-catalyst system
Using CO and H2O to electrosynthesize oxygenates is a possible low-carbon synthetic route. Here, the authors study the CO adsorption behavior on Ag catalysts and design a Cu-Ag nanostructure catalyst with a relay mechanism that enhances the electrosynthesis of oxygenates.
- Nannan Meng
- , Zhitan Wu
- & Kian Ping Loh
-
Article
| Open AccessElectrochemical C−H deuteration of pyridine derivatives with D2O
Despite the established C − H deuteration of pyridine derivatives synthetic methods with good D-incorporation, under milder conditions with easy operation procedures is still on the way. Here, the authors develop a straightforward, metal-free, and acid-/base-free electrochemical C4-selective C − H deuteration of pyridine derivatives with high selectivity and excellent D-incorporation at room temperature, which use D2O as economic and convenient D-source.
- Zhiwei Zhao
- , Ranran Zhang
- & Youai Qiu
-
Article
| Open AccessStarch-mediated colloidal chemistry for highly reversible zinc-based polyiodide redox flow batteries
The development of porous membranes that could work under high power density brings promise but a challenge with polyiodide cross-over for aqueous Zn-I flow batteries. Here, the authors develop a colloidal starch-based catholyte to inhibit cross-over that endows reversible flow cell performance.
- Zhiquan Wei
- , Zhaodong Huang
- & Chunyi Zhi
-
Article
| Open AccessCreep-type all-solid-state cathode achieving long life
Electrochemical-mechanical issues bring challenges but create new opportunities to design innovative all-solid-state batteries. Here, the authors propose to use the (de)lithiation-stress-creep synergistic time-dependent evolution to boost the electrochemical performance of all-solid-state batteries.
- Xiaolin Xiong
- , Ting Lin
- & Liumin Suo
-
Article
| Open AccessAllotrope-dependent activity-stability relationships of molybdenum sulfide hydrogen evolution electrocatalysts
The stability of non-noble catalysts is key for their use in proton exchange membrane water electrolysers. Here, authors study activity-stability relationships of MoSx allotropes for H2 production, reporting allotrope-dependent stabilities and dissolution pathways, and propose operation guidelines.
- Daniel Escalera-López
- , Christian Iffelsberger
- & Serhiy Cherevko
-
Article
| Open AccessSpatial decoupling of bromide-mediated process boosts propylene oxide electrosynthesis
The practical application of electrosynthesis of propylene oxide is hindered by limited performance. Here, the authors report a spatial decoupling strategy by utilizing the bromide mediator to link propylene and anode within separated reactors, realizing high-performance electrosynthesis of propylene oxide.
- Mingfang Chi
- , Jingwen Ke
- & Jie Zeng
-
Article
| Open AccessTimescale correlation of shallow trap states increases electrochemiluminescence efficiency in carbon nitrides
Differences in timescales of electron transfer reactions limit the efficiency of electrochemiluminescence. Here, the authors coordinate the timescales using shallow trap states in carbon nitride to achieve high efficiencies applied in nitrite sensing.
- Yanfeng Fang
- , Hong Yang
- & Yuanjian Zhang
-
Article
| Open AccessConsummating ion desolvation in hard carbon anodes for reversible sodium storage
Hard carbon is regarded as a promising negative electrode for Na-ion batteries but suffers from low initial Coulombic efficiency (ICE). Here, the authors identify the time-dependent ion pre-desolvation on the nanopore of hard carbons, which remarkably improves the ICE by simply extending the aging time.
- Ziyang Lu
- , Huijun Yang
- & Haoshen Zhou
-
Article
| Open AccessEfficient ammonia synthesis from the air using tandem non-thermal plasma and electrocatalysis at ambient conditions
The conversion of atmospheric N2 into NH3 under ambient pressure is highly interesting but very challenging. In this study, the authors present a tandem air-NOx and NOx-NH3 system that combines non-thermal plasma-enabled N2 oxidation with Ni(OH)x/Cu-catalyzed electrochemical NOx−reduction, resulting in a high NH3 yield from N2 under ambient pressure conditions.
- Wei Liu
- , Mengyang Xia
- & Guidong Yang
-
Article
| Open AccessLocal CO2 reservoir layer promotes rapid and selective electrochemical CO2 reduction
Converting CO2 to valuable chemicals is of high interest. Here the authors address the challenge of low CO2 solubility in water by incorporating a metal-organic framework layer to enhance CO2 pre-concentration and activation before its electroreduction by the underlying solid electrocatalyst.
- Subhabrata Mukhopadhyay
- , Muhammad Saad Naeem
- & Idan Hod
-
Article
| Open AccessElectric-field-assisted proton coupling enhanced oxygen evolution reaction
Manganese complexes have long been utilized by nature to catalyze the oxygen evolution reaction (OER) but mirroring their efficiency in artificial electrochemical systems has proven difficult. This study centers on alpha-manganese dioxide (α-MnO2), which closely mimics natural MnIV-O-MnIII-HxO motifs, presenting a novel method for manipulating proton coupling within the OER process using an external electric field.
- Xuelei Pan
- , Mengyu Yan
- & Liqiang Mai
-
Article
| Open AccessExtrinsic hydrophobicity-controlled silver nanoparticles as efficient and stable catalysts for CO2 electrolysis
A key factor for the electrochemical reduction of CO2 to CO is limiting the competing H2 evolution reaction. Here, authors use real-time synchrotron X-ray computed tomography to show that a silver nanoparticle-ligand catalyst structure improves water management, thereby maintaining CO production.
- Young-Jin Ko
- , Chulwan Lim
- & Hyung-Suk Oh
-
Article
| Open AccessHybridizing carbonate and ether at molecular scales for high-energy and high-safety lithium metal batteries
Here, authors report a linear functionalized solvent through molecular hybridization. Complementary ethers and carbonates are integrated into a single molecule, exhibiting properties suited for high-energy and high safety lithium metal batteries.
- Jiawei Chen
- , Daoming Zhang
- & Yongyao Xia
-
Article
| Open AccessManipulating the diffusion energy barrier at the lithium metal electrolyte interface for dendrite-free long-life batteries
Constructing an artificial solid electrolyte interphase to protect the lithium metal electrode is promising but challenging. Here, authors report a facile approach to form a layer to simultaneously overcome diffusion and advection-limited ion transport to achieve dendrite-free Li plating/stripping.
- Jyotshna Pokharel
- , Arthur Cresce
- & Yue Zhou
-
Article
| Open AccessElectrochemically coupled CH4 and CO2 consumption driven by microbial processes
The microbial valorisation of greenhouse gases could offer promising approaches climate change mitigation. Here, authors demonstrate the coupling of methane oxidation and carbon dioxide reduction by microbial consortia, facilitated by the redox cycling of iron minerals.
- Yue Zheng
- , Huan Wang
- & Feng Zhao
-
Article
| Open AccessSurface oxidation/spin state determines oxygen evolution reaction activity of cobalt-based catalysts in acidic environment
Co-based catalysts are promising candidates for oxygen evolution reaction catalysis in an acidic environment, but the structure-activity relationship is unclear. Here, the authors discover that their acidic water oxidation activity is determined by the surface oxidation/spin state.
- Jinzhen Huang
- , Camelia Nicoleta Borca
- & Emiliana Fabbri
-
Article
| Open AccessLigand-modified nanoparticle surfaces influence CO electroreduction selectivity
Enhancing the kinetics and selectivity of CO2/CO electroreduction towards valuable multi-carbon products poses a scientific challenge and is imperative for practical applicability. Here the authors report that modifying copper catalysts with surface thiol ligands significantly improves acetate selectivity.
- Erfan Shirzadi
- , Qiu Jin
- & Edward H. Sargent
-
Article
| Open AccessEfficient bubble/precipitate traffic enables stable seawater reduction electrocatalysis at industrial-level current densities
Seawater electroreduction is a promising technique for producing hydrogen, but it is hindered by cathodic Mg2 + /Ca2+ precipitation. Here, the authors propose a microscopic bubble/precipitate traffic system that releases small-sized bubbles across the cathode to repel Mg2 + /Ca2+ precipitates from almost the entire surface area of the catalyst.
- Jie Liang
- , Zhengwei Cai
- & Bo Tang
-
Article
| Open AccessActivating reversible carbonate reactions in Nasicon solid electrolyte-based Na-air battery via in-situ formed catholyte
Metal-air batteries, operated in ambient air, suffer from irreversible redox reactions, limiting their energy density. Herein, the authors present a solid electrolyte-based sodium-air battery with a reversible carbonate reaction, facilitated by the in-situ formed catholyte enabled by moisture.
- Heetaek Park
- , Minseok Kang
- & Byoungwoo Kang
-
Article
| Open AccessAluminum corrosion–passivation regulation prolongs aqueous batteries life
Aqueous batteries have a short lifespan due to Al current collector corrosion and Li loss from side reactions on the anode. Here, the authors propose a prototype of self-prolonging aqueous Li-ion batteries by introducing hydrolyzation-type anodic additives to regulate Al corrosion-passivation.
- Binghang Liu
- , Tianshi Lv
- & Liumin Suo
-
Article
| Open AccessPaired electrocatalysis unlocks cross-dehydrogenative coupling of C(sp3)-H bonds using a pentacoordinated cobalt-salen catalyst
Cross-dehydrogenative coupling (CDC) of C-H bonds is an ideal approach for C-C bond construction but suffers from low selectivity of similar C-H bonds. Here, the authors describe a highly selective paired electrocatalysis strategy towards CDC combining hydrogen evolution reaction catalysis with hydride transfer catalysis.
- Ke Liu
- , Mengna Lei
- & Sheng Zhang
-
Article
| Open AccessPd/NiMoO4/NF electrocatalysts for the efficient and ultra-stable synthesis and electrolyte-assisted extraction of glycolate
Here, the authors report a path for electrocatalytic conversions of alcohols through in-situ acid-base reaction and the design of electrocatalysts. In this work, the electrocatalyst had reduced Pd content, improved efficiency, and lowered costs.
- Kai Shi
- , Di Si
- & Jianlin Shi
-
Article
| Open AccessThe formation of unsaturated IrOx in SrIrO3 by cobalt-doping for acidic oxygen evolution reaction
SrIrO3-based catalyst is a promising candidate for acidic oxygen evolution reaction (OER), but the active sites and factors responsible for its effectiveness remain ambiguous. Here, the authors reveal that dynamic dissolution of Co in Co-SrIrO3 leads to the formation of unsaturated IrOx, enabling high-efficiency OER.
- Jia-Wei Zhao
- , Kaihang Yue
- & Gao-Ren Li
-
Article
| Open AccessEnhancement of electrocatalysis through magnetic field effects on mass transport
Magnetic fields can enhance electrocatalysis, yet its effect on mass transport has been overlooked. Here, the authors track the motion induced on the electrolyte ions, demonstrating that mass transport effects can double the catalyst activity with low reactant availability, as in oxygen reduction.
- Priscila Vensaus
- , Yunchang Liang
- & Magalí Lingenfelder
-
Article
| Open AccessElectroreduction of unactivated alkenes using water as hydrogen source
The reduction of unactivated alkyl alkenes is a difficult challenge in organic chemistry. Here, the authors present a silicon-mediated electroreduction of alkyl alkenes, using water as a hydrogen source, enabled by [Fe]-H.
- Yanwei Wang
- , Qian Wang
- & Youai Qiu
-
Article
| Open AccessDynamical evolution of CO2 and H2O on garnet electrolyte elucidated by ambient pressure X-ray spectroscopies
Li6.5La3Zr1.5Ta0.5O12 (LLZO) is a promising solid electrolyte but suffers from severe surface degradation in air. Here, authors use mapping of resonant Auger spectroscopy and various ambient pressure X-ray spectroscopies to elucidate the dynamical evolution of CO2 and H2O on clean LLZO surfaces.
- Nian Zhang
- , Guoxi Ren
- & Xiaosong Liu
-
Article
| Open AccessAutonomous closed-loop mechanistic investigation of molecular electrochemistry via automation
Electrochemical research often requires stringent combinations of experimental parameters that are demanding to manually locate. Here the authors report an autonomous electrochemical platform that implements an adaptive, closed-loop workflow for mechanistic investigation of molecular electrochemistry.
- Hongyuan Sheng
- , Jingwen Sun
- & Chong Liu
-
Article
| Open AccessSingle [0001]-oriented zinc metal anode enables sustainable zinc batteries
The authors present a single [0001]-oriented Zn metal anode with high reversibility and demonstrate the significance of the Zn(0002) metal anode, characterized by a single crystalline orientation, for promoting ultra-sustainable homoepitaxial growth.
- Xiaotan Zhang
- , Jiangxu Li
- & Jiang Zhou
-
Article
| Open AccessEfficient palladium-catalyzed electrocarboxylation enables late-stage carbon isotope labelling
Carbon isotope labelling of bioactive molecules is essential for accessing the pharmacokinetic and pharmacodynamic properties of new drug entities. Here, the authors propose an electrochemical isotope-labelling protocol which enables the use of near-stoichiometric 14CO2, facilitating late-stage and single-step carbon-14 labelling of pharmaceuticals and representative precursors.
- Gabriel M. F. Batista
- , Ruth Ebenbauer
- & Troels Skrydstrup
-
Article
| Open AccessDeciphering the critical role of interstitial volume in glassy sulfide superionic conductors
Glass sulfide electrolytes are promising materials for solid-state Li metal batteries, yet limited understanding hinders their progress. Here, the authors decipher the dissolution process of halogen dopants in glass and introduce a synthetic strategy to increase halogen dopant’s dissolution capacity.
- Han Su
- , Yu Zhong
- & Jiangping Tu
-
Article
| Open AccessSingle-atom platinum with asymmetric coordination environment on fully conjugated covalent organic framework for efficient electrocatalysis
In addition to maximizing atomic utilization, single-atom catalysts with defined structures can be used to investigate catalytic mechanisms and structure-activity relationships. Here, authors study a non-thermodynamically stable Pt-N2 active site for the electrochemical hydrogen evolution reaction.
- Ziqi Zhang
- , Zhe Zhang
- & Shouhua Feng
-
Article
| Open AccessAn entanglement association polymer electrolyte for Li-metal batteries
Here, the authors report an entanglement association polymer electrolyte with a polymer matrix and copolymer stabilizer. The developed entangled structure forms a stable interface for the polymer electrolyte during charging and discharging.
- Hangchao Wang
- , Yali Yang
- & Dingguo Xia
-
Article
| Open AccessLocking the lattice oxygen in RuO2 to stabilize highly active Ru sites in acidic water oxidation
RuO2 is highly active toward the acidic electrochemical oxygen evolution reaction but exhibits instability due to lattice oxygen oxidation. Here, authors prepare an interstitial Si-decorated RuO2 catalyst with improved stability for acidic water oxidation by suppressing lattice oxygen oxidation.
- Xinyu Ping
- , Yongduo Liu
- & Zidong Wei
-
Article
| Open AccessPulse potential mediated selectivity for the electrocatalytic oxidation of glycerol to glyceric acid
Mitigating the deactivation of noble metal-based catalysts caused by self-oxidation and toxic adsorption poses a considerable challenge in organic electro-oxidation. This study addresses the issue by employing a pulsed potential electrolysis approach to selectively electrocatalyze the oxidation of glycerol to glyceric acid using a Pt-based catalyst.
- Wei Chen
- , Liang Zhang
- & Yuqin Zou
-
Article
| Open AccessPhenol as proton shuttle and buffer for lithium-mediated ammonia electrosynthesis
The proton shuttle plays a critical role in the proton transfer process during lithium-mediated ammonia synthesis. Here, the authors establish the structure-activity relationship and design principles for effective proton shuttles.
- Xianbiao Fu
- , Aoni Xu
- & Ib Chorkendorff
-
Article
| Open AccessA solid-state lithium-ion battery with micron-sized silicon anode operating free from external pressure
Applying high stack pressure is primarily done to address the mechanical failure issue of solid-state batteries. Here, the authors propose a mechanical optimization strategy involving elastic electrolyte to realize solid-state batteries operating without external pressurizing.
- Hui Pan
- , Lei Wang
- & Haoshen Zhou
-
Article
| Open AccessInter-site structural heterogeneity induction of single atom Fe catalysts for robust oxygen reduction
Here, authors report an inter-site structural heterogeneity induced effect of hierarchical single atom Fe catalysts for robust oxygen reduction. Dynamic evolutions and insights into structure-activity relationship are presented.
- Peng Zhang
- , Hsiao-Chien Chen
- & Yuan Pan
-
Article
| Open AccessMolecular anchoring of free solvents for high-voltage and high-safety lithium metal batteries
Advanced electrolyte is essential for high-energy-density lithium metal batteries. Here, the authors design a molecular anchoring dilute electrolyte via intermolecular hydrogen bonding with free solvents to improve the battery electrochemical and thermal stabilities.
- Zhuangzhuang Cui
- , Zhuangzhuang Jia
- & Xiaodi Ren
-
Article
| Open AccessDynamic chloride ion adsorption on single iridium atom boosts seawater oxidation catalysis
The seawater oxidation reaction faces challenges from competitive chloride oxidation reaction. Herein, the authors have utilized chlorine adsorption to modulate the single-atom Ir coordination state and promote seawater oxidation and catalyst stability.
- Xinxuan Duan
- , Qihao Sha
- & Xiaoming Sun