Chemistry articles within Nature Communications

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• Article
  17 May 2024 | Open Access

  Disentangling the effects of structure and lone-pair electrons in the lattice dynamics of halide perovskites

  By comparing CsSrBr3 and CsPbBr3 with close structural similarity but the latter lacking lone-pair electrons on the octahedral metal, the authors reveal the similar vibrational anharmonicities in the two perovskites, which disentangles the electronic properties and vibrational anharmonicities.

  • Sebastián Caicedo-Dávila
  • , Adi Cohen
  •  & David A. Egger

• Article
  17 May 2024 | Open Access

  Reduction of precious metal ions in aqueous solutions by contact-electro-catalysis

  Currently, precious metal recovery from e-waste water is usually performed by liquid extraction or sorbent processes. Here, the authors show the untapped potential of dielectric insulators as catalysts for the 1-step selective recovery of gold in aqueous solutions by contact-electrocatalysis.

  • Yusen Su
  • , Andy Berbille
  •  & Zhong Lin Wang

• Article
  16 May 2024 | Open Access

  Accelerating reliable multiscale quantum refinement of protein–drug systems enabled by machine learning

  Biomacromolecule structures are vital for drug design. Here, the authors integrate one or two machine learning potentials in an ONIOM-based quantum refinement method, achieving reliable drug structures at an QM level in proteins with high efficiency.

  • Zeyin Yan
  • , Dacong Wei
  •  & Lung Wa Chung

• Article
  16 May 2024 | Open Access

  Ion 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
  16 May 2024 | Open Access

  Single-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

• Article
  16 May 2024 | Open Access

  Crossover from gas-like to liquid-like molecular diffusion in a simple supercritical fluid

  Within the phase diagram of pure substances, the supercritical state is not fully understood. Here the authors experimentally observe a gas-like to liquid-like crossover in the self-dynamics of supercritical fluid methane upon pressure increase.

  • Umbertoluca Ranieri
  • , Ferdinando Formisano
  •  & Livia E. Bove

• Article
  15 May 2024 | Open Access

  Introduction of the difluoromethyl group at the meta- or para-position of pyridines through regioselectivity switch

  The direct C−H-difluoromethylation of pyridines represents a highly efficient economic way to access azines. However, the direct meta-difluoromethylation of pyridines remains elusive. Here, the authors demonstrate switchable meta- as well as para-C−H difluoromethylation of pyridines through radical processes by using oxazino pyridine intermediates.

  • Pengwei Xu
  • , Zhe Wang
  •  & Armido Studer

• Article
  15 May 2024 | Open Access

  Late-stage benzenoid-to-troponoid skeletal modification of the cephalotanes exemplified by the total synthesis of harringtonolide

  Many natural products exist as families of structurally similar molecules, and therefore developing skeletal modifications of common intermediates offers flexible and powerful approaches for target synthesis. Here, the authors report a single-atom insertion into the framework of the benzenoid subfamily, providing access to the troponoid congeners.

  • Stefan Wiesler
  • , Goh Sennari
  •  & Richmond Sarpong

• Article
  15 May 2024 | Open Access

  Switchable supramolecular helices for asymmetric stereodivergent catalysis

  Controlling multiple stereogenic centers in a single molecular scaffold represents a challenge for current switchable asymmetric catalysts. Here, the authors achieve asymmetric stereodivergency by means of a switchable supramolecular helical catalyst allowing all stereoisomers to be obtained with high and similar enantioselectivities.

  • Ran Chen
  • , Ahmad Hammoud
  •  & Matthieu Raynal

• Article
  15 May 2024 | Open Access

  Redox-induced controllable engineering of MnO₂-Mn_xCo_3-xO₄ interface to boost catalytic oxidation of ethane

  The exploration of heterogeneous interfaces between metal oxides has received limited attention. Here the authors demonstrated the creation of MnO₂-Mn_xCo_3-xO₄ interfaces through controlled chemical reduction processes, effectively altering electron distribution and yielding a superior catalyst for ethane oxidation.

  • Haiyan Wang
  • , Shuang Wang
  •  & Xinwen Guo

• Article
  15 May 2024 | Open Access

  Stretchable phosphorescent polymers by multiphase engineering

  Stretchable phosphorescent materials have potential in applications such as wearable electronics, but achieving a suitable balance of emission and stretchability is challenging. Here, the authors report the use of microphase separation to show stretchability with emission lifetimes maintained.

  • Nan Gan
  • , Xin Zou
  •  & Wei Huang

• Article
  14 May 2024 | Open Access

  Asymmetric C–H Dehydrogenative Alkenylation via a Photo-induced Chiral α‑Imino Radical Intermediate

  The direct alkenylation with simple alkenes stands out as the most ideal yet challenging strategy for obtaining high-valued desaturated alkanes. Herein, the authors present a direct asymmetric dehydrogenative α-C(sp3)-H alkenylation of carbonyls based on synergistic photoredox-cobalt-chiral primary amine catalysis under visible light.

  • Zongbin Jia
  • , Liang Cheng
  •  & Sanzhong Luo

• Comment
  14 May 2024 | Open Access

  A 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
  14 May 2024 | Open Access

  Tracking nuclear motion in single-molecule magnets using femtosecond X-ray absorption spectroscopy

  The authors use femtosecond K-edge X-ray absorption spectroscopy to follow nuclear motion in a manganese-based tri-nuclear single-molecule magnet, and resolve changes in bond lengths on the order of hundreds of ångströms and on sub-picosecond timescales.

  • Kyle Barlow
  • , Ryan Phelps
  •  & J. Olof Johansson

• Article
  14 May 2024 | Open Access

  Sustainable 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
  14 May 2024 | Open Access

  Atomically dispersed asymmetric cobalt electrocatalyst for efficient hydrogen peroxide production in neutral media

  The relationship between the structural configurations of M-N-C electrocatalysts and their performances in neutral environments has been insufficiently investigated. Here the authors demonstrate that an ultralow metal-loaded Co-N-C electrocatalyst, featuring the asymmetric Co-C/N/O configuration, exhibit exceptional efficiency in electrochemically producing hydrogen peroxide under neutral conditions.

  • Longxiang Liu
  • , Liqun Kang
  •  & Guanjie He

• Article
  13 May 2024 | Open Access

  Mechanically controlled multifaceted dynamic transformations in twisted organic crystal waveguides

  Crystals with mechanical responses are of interest, but often only one or two dynamic motions can be achieved with one crystal. Here, the authors report a combination of dynamic movements in naturally twisted optical waveguiding microcrystals.

  • Mehdi Rohullah
  • , Vuppu Vinay Pradeep
  •  & Rajadurai Chandrasekar

• Article
  13 May 2024 | Open Access

  Rapid and scalable photocatalytic C(sp²)–C(sp³) Suzuki−Miyaura cross-coupling of aryl bromides with alkyl boranes

  In recent years a growing demand for drug design approaches that incorporate a higher number of sp³-hybridized carbons fuelled the development of innovative cross-coupling strategies to reliably introduce aliphatic fragments. Here, the authors present a powerful approach for the light-mediated B-alkyl Suzuki−Miyaura crosscoupling between alkyl boranes and aryl bromides.

  • Ting Wan
  • , Luca Capaldo
  •  & Timothy Noël

• Article
  13 May 2024 | Open Access

  Oxidative photocatalysis on membranes triggers non-canonical pyroptosis

  Oxidative damage to intracellular membrane proteins is critical to cells. Here, the authors use a water-oxidizing photocatalyst, generating ∙OH even under hypoxia, to show that membrane-specific protein oxidation triggers pyroptosis via non-canonical inflammasomes.

  • Chaiheon Lee
  • , Mingyu Park
  •  & Tae-Hyuk Kwon

• Article
  13 May 2024 | Open Access

  Synergistic growth of nickel and platinum nanoparticles via exsolution and surface reaction

  Utilizing “Chemistry at a point”, Ni is exsolved from a perovskite lattice under deposited Pt nanoparticles. This yields even smaller Ni Pt alloy nanoparticles on a perovskite nanofiber structure, exhibiting high catalytic activity.

  • Min Xu
  • , Yukwon Jeon
  •  & John T. S. Irvine

• Article
  13 May 2024 | Open Access

  Electrochemical-repaired porous graphene membranes for precise ion-ion separation

  The preparation of atom-thick lattices with Å-scale pores is desirable for achieving ion selectivity and high ion flux. Here authors present a cm-scale membrane made of atom-thick graphene film hosting zero-dimensional pores spanning only a few Å, repaired using an in situ electrochemical strategy, yielding high Li⁺/Mg²⁺ separation performance.

  • Zongyao Zhou
  • , Kangning Zhao
  •  & Kumar Varoon Agrawal

• Article
  11 May 2024 | Open Access

  Operando 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
  11 May 2024 | Open Access

  Giant magneto-photoluminescence at ultralow field in organic microcrystal arrays for on-chip optical magnetometer

  The optical detection of magnetic fields is difficult for low field strengths. Here, the authors show how strong magneto-photoluminescence can be achieved in rubrene microcrystals and demonstrate its application in a magnetometer.

  • Hong Wang
  • , Baipeng Yin
  •  & Chuang Zhang

• Article
  10 May 2024 | Open Access

  Deciphering complexity in Pd–catalyzed cross-couplings

  Knowledge about the full reaction signature, such as the complete profile of products and side-products is important in accelerating discovery chemistry. Here, the authors report a methodology using high-throughput experimentation and multivariate data analysis to examine Palladium- catalyzed cross-coulpling reactions.

  • George E. Clarke
  • , James D. Firth
  •  & Ian J. S. Fairlamb

• Article
  10 May 2024 | Open Access

  Vitrification-enabled enhancement of proton conductivity in hydrogen-bonded organic frameworks

  Proton conduction is one of the interesting applications of hydrogen-bonded organic frameworks. Here, the authors report hydrogen-bonded organic framework that can be transformed into glassy state, effectively mitigating grain boundary effects, and significantly enhancing proton conduction performance.

  • Feng-Fan Yang
  • , Xiao-Lu Wang
  •  & Linfeng Liang

• Article
  10 May 2024 | Open Access

  Nested non-covalent interactions expand the functions of supramolecular polymer networks

  Supramolecular polymer networks have unique and useful properties due to the reversible nature of their cross-links. Here, the authors show that when two distinct supramolecular interaction classes exist within a single cross-link, new functions can result.

  • David J. Lundberg
  • , Christopher M. Brown
  •  & Jeremiah A. Johnson

• Article
  10 May 2024 | Open Access

  Integrating spin-dependent emission and dielectric switching in Fe^II catenated metal-organic frameworks

  Incorporating spin crossover motifs into mechanically interlocked molecules offers various switchable properties. Here, the authors report two Fe^II catenated metal-organic frameworks that exhibit spin dependent luminescence and dielectric switching.

  • Xue-Ru Wu
  • , Shu-Qi Wu
  •  & Hui-Zhong Kou

• Article
  09 May 2024 | Open Access

  Correlating activities and defects in (photo)electrocatalysts using in-situ multi-modal microscopic imaging

  Physicochemical heterogeneity poses a significant constraint in photocatalyst advancement. Here the authors introduce a multimodal optical microscopy platform to assess activity and defects concurrently in photoelectrocatalysts, revealing that disorder can unexpectedly enhance local photoelectrocatalytic performance in certain instances.

  • Camilo A. Mesa
  • , Michael Sachs
  •  & Raj Pandya

• Article
  09 May 2024 | Open Access

  Neutron scattering and neural-network quantum molecular dynamics investigation of the vibrations of ammonia along the solid-to-liquid transition

  Through neutron scattering experiments coupled with machine learning, the authors uncover the strong role of nuclear quantum effects in the dynamics of ammonia in both its solid and technologically relevant liquid phase.

  • T. M. Linker
  • , A. Krishnamoorthy
  •  & P. D. Vashishta

• Article
  09 May 2024 | Open Access

  Gas adsorption and framework flexibility of CALF-20 explored via experiments and simulations

  CALF-20 is a water stable structure capable of selectively separating CO₂ from flue gas. Here authors use a close feedback loop between theory and experiments to understand CO₂/water adsorption and framework flexibility of CALF-20.

  • Rama Oktavian
  • , Ruben Goeminne
  •  & Peyman Z. Moghadam

• Article
  09 May 2024 | Open Access

  Bulk transparent supramolecular glass enabled by host–guest molecular recognition

  Strategies to produce supramolecular glass and the study of its intrinsic structure and mechanical properties remains largely unexplored. Here, the authors prepare a supramolecular glass via the host–guest recognition between methyl-β-cyclodextrin and para-hydroxybenzoic acid with recyclability, compatibility, and thermal processability.

  • Changyong Cai
  • , Shuanggen Wu
  •  & Shengyi Dong

• Article
  09 May 2024 | Open Access

  Effect of crystal facets in plasmonic catalysis

  Crystal facets are known to be important in traditional heterogeneous catalysis, yet this effect has not been studied in plasmon-assisted catalysis. Here, the authors investigate the impact facets have on CO₂ reduction using plasmonic Au NPs.

  • Yicui Kang
  • , Simão M. João
  •  & Emiliano Cortés

• Article
  09 May 2024 | Open Access

  Bicontinuous 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
  09 May 2024 | Open Access

  A 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
  09 May 2024 | Open Access

  Sustainable 3D printing by reversible salting-out effects with aqueous salt solutions

  Here, the authors show a facile and sustainable 3D printing by utilizing a reversible salting-out effect on poly(N-isopropylacrylamide) (PNIPAM) solutions. Aqueous salt solutions lower the phase transition temperature of PNIPAM solutions below 10 °C and instantly solidify the PNIPAM solutions upon contact.

  • Donghwan Ji
  • , Joseph Liu
  •  & Jinhye Bae

• Article
  08 May 2024 | Open Access

  Interplay of structural preorganization and conformational sampling in UDP-glucuronic acid 4-epimerase catalysis

  Enzymes involve structural flexibility in their function, but understanding enzyme catalysis as connected to protein motions is a major challenge. Here, the authors obtain energetic description of C-H activation in nicotinamide coenzyme-dependent UDP-glucuronic acid C4 epimerase based on temperature kinetic studies and isotope effect measurements.

  • Christian Rapp
  • , Annika Borg
  •  & Bernd Nidetzky

• Article
  08 May 2024 | Open Access

  N₂ cleavage by silylene and formation of H₂Si(μ-N)₂SiH₂

  So far, only homoleptic N₂ complexes of silicon have been reported under matrix-isolation conditions including but the activation of more inert nitrogen by silylenes remains challenging. Here the authors report on the activation of dinitrogen by silylenes under cryogenic conditions.

  • Liyan Cai
  • , Bing Xu
  •  & Xuefeng Wang

• Article
  08 May 2024 | Open Access

  Visualizing the gas-sensitive structure of the CuZn surface in methanol synthesis catalysis

  Industrial methanol synthesis uses materials based on Cu and ZnO. We present high-resolution imaging of active surfaces which reveals how Zn species are transported at the active Cu interface in diffusion processes controlled by the reactant gas composition.

  • Sigmund Jensen
  • , Mathias H. R. Mammen
  •  & Jeppe V. Lauritsen

• Article
  08 May 2024 | Open Access

  “On-Water” accelerated dearomative cycloaddition via aquaphotocatalysis

  Developing water compatible synthetic methods for Sulfur(VI) fluoride exchange (SuFEx) chemistry is of paramount importance. Here the authors demonstrate a catalytic dearomative [2+2] photocycloaddition that significantly speeds up the synthesis of heterocyclic alkyl SuFEx hubs, leveraging the unique reactivity at the water-oil interface.

  • Soo Bok Kim
  • , Dong Hyeon Kim
  •  & Han Yong Bae

• Article
  08 May 2024 | Open Access

  Finely manipulating room temperature phosphorescence by dynamic lanthanide coordination toward multi-level information security

  Room temperature phosphorescent materials have many desirable properties, but fine control of these can be challenging. Here, the authors report a strategy for this control by dynamic lanthanide coordination in combination with organic phosphors.

  • Longqiang Li
  • , Jiayin Zhou
  •  & Tao Chen

• Article
  08 May 2024 | Open Access

  Converting inorganic sulfur into degradable thermoplastics and adhesives by copolymerization with cyclic disulfides

  The inherent instability of poly(sulfur) renders the conversion of elementary sulfur into sulfur-rich polymers challenging which limits the use of this industrial by-product. Here, the authors demonstrate that inorganic sulfur can be utilized by copolymerizing with cyclic disulfides, producing high-performance thermoplastic elastomers with self-healing ability and degradability.

  • Yuanxin Deng
  • , Zhengtie Huang
  •  & Da-Hui Qu

• Article
  08 May 2024 | Open Access

  High 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
  08 May 2024 | Open Access

  Cellulose nanofiber-mediated manifold dynamic synergy enabling adhesive and photo-detachable hydrogel for self-powered E-skin

  Certain devices require rapid adhesion and detachment, but achieving both can be challenging. Here, the authors report the development of a supramolecular hydrogel with reversible tough adhesion and triggered photodetachment.

  • Lei Zhang
  • , Lu Chen
  •  & Chaoji Chen

• Article
  08 May 2024 | Open Access

  Capture of single Ag atoms through high-temperature-induced crystal plane reconstruction

  Terminal hydroxyl groups on γ-Al₂O₃ surfaces serve as anchoring sites for Ag. Based on the surface energy of different crystal planes of γ-Al₂O₃ at various temperatures, the authors propose a high-temperature-induced crystal plane transformation method to construct terminal hydroxyl anchoring sites.

  • Jiaxin Li
  • , Kai Li
  •  & Hong He

• Article
  08 May 2024 | Open Access

  Probing the activated complex of the F + NH₃ reaction via a dipole-bound state

  Experimental characterization of the transition state in chemical reactions is challenging due to its transient nature. Here, Zhang et al. observe quantum states near the activated complex region of the F + NH₃ → HF + NH₂ reaction via a dipole-bound state of the FNH₃^- anion formed upon photodetachment, which allows probing regions of reactive potential energy surfaces out of the Franck-Condon-active areas.

  • Rui Zhang
  • , Shuaiting Yan
  •  & Chuangang Ning

• Article
  08 May 2024 | Open Access

  Constructing ordered and tunable extrinsic porosity in covalent organic frameworks via water-mediated soft-template strategy

  The synthesis of covalent organic frameworks (COFs) by a soft-template methodology is challenging. Here, the authors attach the soft templates to the COFs backbone via ion bonds, avoiding crystallization incompatibilities and allowing subsequent removal of the template by ion exchange for enhanced U(VI)/Th(IV) adsorption performance.

  • Ningning He
  • , Yingdi Zou
  •  & Lijian Ma

• Article
  08 May 2024 | Open Access

  Efficient recovery and recycling/upcycling of precious metals using hydrazide-functionalized star-shaped polymers

  Despite the use of amine-functionalized polymers as metal adsorbents, they are generally ineffective at recovering precious metals. Here the authors prepare a star-shaped, hydrazide-functionalized polymer as a recoverable standalone adsorbent with high precious metal adsorption capability/selectivity and practical feasibility.

  • Seung Su Shin
  • , Youngkyun Jung
  •  & Jung-Hyun Lee

• Article
  08 May 2024 | Open Access

  Multi-color dual wavelength vat photopolymerization 3D printing via spatially controlled acidity

  Dual wavelength vat photopolymerization has emerged as a powerful approach to create multimaterial objects but require changing the resin during the printing process. Here, the authors develop a method of dual-wavelength 3D printing that can directly access multicolor parts without requiring changing of resin feedstocks or introduction of new materials during the printing process.

  • Kyle C. H. Chin
  • , Grant Ovsepyan
  •  & Andrew J. Boydston

• Article
  07 May 2024 | Open Access

  One pot conversion of phenols and anilines to aldehydes and ketones exploiting α gem boryl carbanions

  For the carbonylation reactions to synthesize aldehyde, ester, amide, and other carbonyl derivatives, a transition metal-free and CO- free reaction was challenging but highly demanded. Here, the authors report a transition metal-free and CO- free method for deoxygenetive/denitrogenetive conversion of phenols and anilines to aldehydes and ketones.

  • Kanak Kanti Das
  • , Debasis Aich
  •  & Santanu Panda

• Article
  07 May 2024 | Open Access

  Electrochemical 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