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| Open AccessOptically induced charge-transfer in donor-acceptor-substituted p- and m- C2B10H12 carboranes
Icosahedral carboranes have long been considered to be aromatic but the extent of conjugation between these clusters and their substituents is still being debated. Here the authors demonstrate carboranes as conjugated bridges in optical functional chromophores.
- Lin Wu
- , Marco Holzapfel
- & Lei Ji
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Article
| Open AccessFine-tuning the pore environment of ultramicroporous three-dimensional covalent organic frameworks for efficient one-step ethylene purification
The construction of three-dimensional covalent organic frameworks for gas separation is challenging due to the similar physicochemical properties of the gas mixture. Here, the authors report functional three-dimensional covalent organic frameworks by fine-tunning the pore environment with pyridine units to achieve effective separation of ethane from ethylene.
- Yang Xie
- , Wenjing Wang
- & Cheng Wang
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Article
| Open AccessClosed-loop recycling of sulfur-rich polymers with tunable properties spanning thermoplastics, elastomers, and vitrimers
Sulfur-rich polymers are promising candidates for chemical recycling but lack efficient synthetic strategies for achieving diverse structures. Here, the authors report a synthesis strategy for polytrithiocarbonates which is compatible with a wide range of monomers enabling diverse structures via polycondensation of dithiols and dimethyl trithiocarbonate.
- Jin-Zhuo Zhao
- , Tian-Jun Yue
- & Wei-Min Ren
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Article
| Open AccessUpgrading CO2 to sustainable aromatics via perovskite-mediated tandem catalysis
The transformation of CO2 with renewable hydrogen into high-value products presents a sustainable route for net-zero chemical manufacture. Here the authors introduce a LaFeO3 perovskite-mediated tandem conversion of CO2, achieving remarkable performance by separating the CO2 hydrogenation and C-C coupling domains in the catalyst system.
- Guo Tian
- , Zhengwen Li
- & Fei Wei
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Article
| Open AccessUniversal inter-molecular radical transfer reactions on metal surfaces
Radicals are expected to be inactive on metal surfaces. Here the authors describe general intermolecular radical transfer reactions on Ag and Cu surfaces and confirm the reaction mechanism by extensive control experiments.
- Junbo Wang
- , Kaifeng Niu
- & Lifeng Chi
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Article
| Open AccessSlow magnetic relaxation in a europium(II) complex
This study introduces a Eu(II) single molecule magnet that exhibits slow magnetic relaxation at low temperatures. These results highlight the importance of the lanthanide ion’s crystal field in unlocking the magnet-like properties of Eu(II).
- Dylan Errulat
- , Katie L. M. Harriman
- & Muralee Murugesu
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Article
| Open AccessWater-assisted oxidative redispersion of Cu particles through formation of Cu hydroxide at room temperature
Redispersion of sintered metal species requires high temperatures in reactive atmospheres. Here, the authors report room temperature redispersion of supported Cu particles via formation of mobile hydroxylated Cu species induced by gaseous H2O and anchoring of the Cu species by surface OH groups.
- Yamei Fan
- , Rongtan Li
- & Qiang Fu
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Article
| Open AccessExciton engineering of 2D Ruddlesden–Popper perovskites by synergistically tuning the intra and interlayer structures
Guo et al. report enhanced emission and photoconductivity in 2D Ruddlesden-Popper perovskites by synergistically tuning the intra and interlayer structure via pressure. A structure descriptor considering both intra- and interlayer is then introduced for screening perovskite with desired properties.
- Songhao Guo
- , Willa Mihalyi-Koch
- & Xujie Lü
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Article
| Open AccessThermodiffusive desalination
Current desalination technologies are energy intensive and suffer from membrane degradation and fouling. Here, authors propose and explore the potential of thermodiffusion as a means of membrane-free, single-phase thermal desalination. A pathway towards a feasible thermodiffusive desalination is provided.
- Shuqi Xu
- , Alice J. Hutchinson
- & Juan F. Torres
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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
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Article
| Open AccessConvoluted micellar morphological transitions driven by tailorable mesogenic ordering effect from discotic mesogen-containing block copolymer
Assembly of block copolymers can be controlled to give varying morphologies and functionalities, but there are still aspects of the process that are not well understood. Here, the authors report convoluted self-assembly behaviours of block copolymers with discotic liquid crystalline moieties.
- Huanzhi Yang
- , Yunjun Luo
- & Xiaoyu Li
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Article
| Open AccessTumor-activated in situ synthesis of single-atom catalysts for O2-independent photodynamic therapy based on water-splitting
The utility of single-atom catalysts (SACs) for photodynamic therapy (PDT) has been limited by tumor hypoxia and side effects on normal tissues. Here the authors address these issues by developing an approach of tumor microenvironment-activated in situ synthesis of SACs for tumor-specific water-based PDT.
- Yiyan Yin
- , Xiyang Ge
- & Na Na
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Article
| Open AccessA silicon photoanode protected with TiO2/stainless steel bilayer stack for solar seawater splitting
Here, the authors report a Si photoanode coated with a TiO2/stainless steel bilayer to inhibit chloride adsorption and facilitate stable alkaline seawater splitting for over 50 h with an applied bias photon-to-current efficiency of 2.62%.
- Shixuan Zhao
- , Bin Liu
- & Jinlong Gong
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Article
| Open AccessArtificial kagome lattices of Shockley surface states patterned by halogen hydrogen-bonded organic frameworks
By utilizing the templating effect of a halogen hydrogen-bonded organic framework, the authors show that the Shockley surface states of coinage metals can be patterned into artificial kagome lattices with high tunability.
- Ruoting Yin
- , Xiang Zhu
- & Bing Wang
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Article
| Open AccessEmissive brightening in molecular graphene nanoribbons by twilight states
The authors demonstrate that the band structure of graphene nanoribbons is modulated by cove edges, brightening the luminescence 4-fold via emission from otherwise dark twilight states. High spectral resolution of the optical response reveals strong vibron-electron coupling
- Bernd K. Sturdza
- , Fanmiao Kong
- & Robin J. Nicholas
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Article
| Open AccessLong lifetimes white afterglow in slightly crosslinked polymer systems
It is challenging to achieve multicolor long-lived room temperature phosphorescence in intrinsic polymers, especially for white afterglow. Here, the authors report a strategy to obtain pure white afterglow micro-crosslinked polymers by covalently coupling different conjugated chromophores with precursors through a simple and rapid one-pot reaction.
- Qingao Chen
- , Lunjun Qu
- & Chaolong Yang
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Article
| Open AccessChemical unclonable functions based on operable random DNA pools
Physical unclonable functions provide algorithm-independent cryptography based on non-distributable unique tokens. Here, the authors introduce unclonable functions based on random DNA pools, enabling secure decentralized authentication.
- Anne M. Luescher
- , Andreas L. Gimpel
- & Robert N. Grass
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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
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Article
| Open AccessLaMg6Ga6S16: a chemical stable divalent lanthanide chalcogenide
Synthesising chemically stable divalent lanthanide compounds is still faced by great challenges. Here, by using octahedra coupling tetrahedra single/double chains to construct an octahedral crystal field, authors synthesised a stable crystalline La(II)-chalcogenide, LaMg6Ga6S16.
- Yujie Zhang
- , Jiale Chen
- & Hongwei Yu
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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
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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
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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
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Article
| Open AccessAggregation induced emission dynamic chiral europium(III) complexes with excellent circularly polarized luminescence and smart sensors
Chiral luminescent materials are of increasing interest in various applications, but achieving a desirable balance of properties can be challenging. Here, the authors report the development of Eu-based complexes with chiral luminescence and aggregation induced emission.
- Yun-Lan Li
- , Hai-Ling Wang
- & Hua-Hong Zou
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Article
| Open AccessNickel-catalyzed switchable arylative/endo-cyclization of 1,6-enynes
Divergent functionalizations of pi bonds allow for synthetic chemists to move from simplicity to complexity. Here, the authors report a nickel-catalyzed switchable arylation/cyclization of 1,6-enynes in which the nature of the ligand dictates the regioselectivity of alkyne arylation, while the electrophilic trapping reagents determine the selectivity of the cyclization mode.
- Wenfeng Liu
- , Wei Li
- & Wangqing Kong
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Article
| Open AccessMolecular insight into the initial hydration of tricalcium aluminate
The hydration of tricalcium aluminate is an important initial step in the structural build-up of Portland cement. Here the authors use ab initio and accelerated dynamics to describe the reactions and dynamics of this process at the molecular level.
- Xing Ming
- , Wen Si
- & Zongjin Li
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Article
| Open AccessDiffusion-rate sieving of propylene and propane mixtures in a cooperatively dynamic porous crystal
Porous coordination polymers (PCPs) are commonly used in gas separation processes but developing PCPs that work at high temperatures and feature both high uptake capacity and selectivity remains challenging. Here, the authors report diffusion-rate sieving of propylene/propane at 300 K by constructing a PCP whose global and local dynamics cooperatively govern the adsorption process via gate opening for propylene and diffusion regulation for propane.
- Yan Su
- , Ken-ichi Otake
- & Cheng Gu
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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
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Article
| Open AccessA Janus carbaporphyrin pseudo-dimer
Carbaporphyrin dimers, known for their interesting photophysical properties and application in metal-organic chemistry, generally contain two identical subunits. Here, the authors highlight the benefits that can accrue from breaking the inherent symmetry of carbaporphyrin dimers and details a new approach to creating heterobimetallic complexes.
- Haodan He
- , Jiyeon Lee
- & Xian-Sheng Ke
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Article
| Open AccessCrosslinking-induced patterning of MOFs by direct photo- and electron-beam lithography
Precise and scalable patterning is essential for the use of metal-organic frameworks (MOFs) in solid-state electronics and photonics. Here, the authors report on resistance-free, direct photo- and electron-beam lithography of MOF films using crosslinking chemistry.
- Xiaoli Tian
- , Fu Li
- & Jinghong Li
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Article
| Open AccessFlash healing of laser-induced graphene
Laser-induced graphene (LIG) can be obtained via a practically convenient approach, but its amorphous characteristics limit its applications. Here, the authors report a flash Joule heating strategy to improve the crystalline quality and conductivity of LIG, leading to strain sensors with enhanced sensitivity.
- Le Cheng
- , Chi Shun Yeung
- & Ruquan Ye
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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
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Article
| Open AccessIsotope engineering achieved by local coordination design in Ti-Pd co-doped ZrCo-based alloys
Hydrogen isotope effect in metal-hydrogen systems disturbs precise Deuterium/Tritium (D/T) ratio control. Here, the authors demonstrate a local coordination strategy that comprises thermodynamic destabilization with vibration enhancement of interstitial isotopes for isotope engineering.
- Jiacheng Qi
- , Xu Huang
- & Lixin Chen
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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
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Article
| Open AccessUmpolung reactivity of strained C–C σ-bonds without transition-metal catalysis
Umpolung reactions typically focus on carbonyls or imine derivatives. Here, the authors report the umpolung reaction of C–C σ-bonds in bicyclo[1.1.0]butanes (BCBs) with electrophilic alkenes, yielding various cyclobutenes or conjugated dienes.
- Dachang Bai
- , Xiuli Guo
- & Junbiao Chang
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Article
| Open AccessUltrafast photoinduced C-H bond formation from two small inorganic molecules
The formation of C–H bonds via reaction of small inorganic molecules is of great interest for understanding the transition from inorganic to organic matter, but the detailed mechanisms remain elusive. Here, the authors demonstrate real-time visualization and coherent control of the ultrafast C–H bond formation dynamics in a light-induced bimolecular reaction from inorganic species.
- Zhejun Jiang
- , Hao Huang
- & Jian Wu
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Article
| Open AccessTrialkoxysilane-Induced Iridium-Catalyzed para-Selective C–H Bond Borylation of Arenes
Controlling regioselectivity is one of the most challenging aspects for the construction of aryl boron compounds, and there are few practical and general strategies for such transformations. Here, the authors report an iridium-catalyzed trialkoxysilane protecting group-assisted regioselective C–H borylation with various aromatic compounds.
- Guodong Ju
- , Zhibin Huang
- & Yingsheng Zhao
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Article
| Open AccessExtending carbon chemistry at high-pressure by synthesis of CaC2 and Ca3C7 with deprotonated polyacene- and para-poly(indenoindene)-like nanoribbons
The authors demonstrate that carbides with infinite chains of fused [C6] and [C5] rings are synthesized at deep planetary pressures and temperatures. Hydrolysis of these carbides may lead to polycyclic aromatic hydrocarbons in the Universe.
- Saiana Khandarkhaeva
- , Timofey Fedotenko
- & Leonid Dubrovinsky
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Article
| Open AccessJanus electronic state of supported iridium nanoclusters for sustainable alkaline water electrolysis
The hydrogen spillover effect improves the efficiency of the H2 evolution reaction but is incompatible with the O2 evolution reaction in alkaline water electrolysis. Here, the authors show that the Janus electronic state of supported Ir nanoclusters can couple hydrogen spillover and O2 evolution.
- Yaoda Liu
- , Lei Li
- & Zhengfei Dai
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Article
| Open AccessUltraviolet light blocking optically clear adhesives for foldable displays via highly efficient visible-light curing
The slow curing speed of UV-based methods to produce UV-blocking optically clear adhesive (OCA) for display panels poses a barrier to commercialization. Here, authors introduce a visible-light driven photo-initiating system for rapid production of OCAs, demonstrating efficient UV-blocking ability.
- Yonghwan Kwon
- , Seokju Lee
- & Min Sang Kwon
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Article
| Open AccessHighly efficient multi-resonance thermally activated delayed fluorescence material toward a BT.2020 deep-blue emitter
The realization of a BT.2020 blue emitter is challenging due to the spectral redshift associated with π-extension. Here, the authors report a multi-resonance thermally activated delayed fluorescence emitter, exhibiting ultrapure deep-blue narrow emission and CIEy ≤ 0.05 exceeding 20% efficiency.
- Junki Ochi
- , Yuki Yamasaki
- & Takuji Hatakeyama
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Article
| Open AccessAn all-in-one tetrazine reagent for cysteine-selective labeling and bioorthogonal activable prodrug construction
Prodrugs have the potential for improving therapeutic index and expanding drug targets, but current prodrug activation strategies that are responsive to endogenous stimuli can result in unintended drug release and systemic toxicity. Here, the authors report 3-vinyl−6-oxymethyltetrazine (voTz) as an all-in-one reagent for modular preparation of tetrazine-caged prodrugs and chemoselective labeling of peptides to produce bioorthogonal activable peptide-prodrug conjugates.
- Xinyu He
- , Jie Li
- & Haoxing Wu
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Article
| Open AccessBiomimetic NIR-II fluorescent proteins created from chemogenic protein-seeking dyes for multicolor deep-tissue bioimaging
Near-infrared-I/II fluorescent proteins (NIR-I/II FPs) are crucial for in vivo imaging, but their availability is still scarce. Here, the authors make use of protein-seeking NIR-II dyes as chromophores, which covalently bind to tag proteins and thus creating biomimetic NIR-II FPs.
- Jiajun Xu
- , Ningning Zhu
- & Shoujun Zhu
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Article
| Open AccessCarbon redirection via tunable Fenton-like reactions under nanoconfinement toward sustainable water treatment
Regulating the carbon evolution pathway during chemical oxidation is critical, but challenging, for sustainable water treatment. Here, the authors report an adaptive approach to drive carbon redirection from molecular fragmentation to polymerization under tunable nanoconfinement.
- Xiang Gao
- , Zhichao Yang
- & Bingcai Pan
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Article
| Open AccessDefect-induced triple synergistic modulation in copper for superior electrochemical ammonia production across broad nitrate concentrations
Converting nitrate to ammonia in wastewater with a wide range of nitrate concentrations remains a challenging task. Here the authors report defect-rich Cu nanowire electrocatalyst which can achieve 50 to 1100 mA cm−2 and over 90% Faradaic efficiency using 1–100 mM nitrate wastewater.
- Bocheng Zhang
- , Zechuan Dai
- & Genqiang Zhang
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Article
| Open AccessStereoselective assembly of C-oligosaccharides via modular difunctionalization of glycals
C-oligosaccharides are found in natural products and drug molecules, but their synthesis is challenging. Here, the authors report a strategy for the stereoselective and efficient synthesis of Coligosaccharides via palladium-catalyzed nondirected C1–H glycosylation/C2-alkenylation, cyanation, and alkynylation of 2-iodoglycals with glycosyl chloride donors.
- Ya-Nan Ding
- , Mei-Ze Xu
- & Yong-Min Liang
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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
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Article
| Open AccessPhoto-modulated activation of organic bases enabling microencapsulation and on-demand reactivity
Oil-water emulsion techniques can be used for encapsulation of chemicals and control of reactivity, but is challenging for highly reactive materials such as acids and bases. Here, the authors report the encapsulation of bases by masking of reactivity with photo-removable protecting groups.
- Wenle Li
- , Xiaocun Lu
- & Nancy R. Sottos
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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
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Article
| Open AccessSupramolecular polynuclear clusters sustained cubic hydrogen bonded frameworks with octahedral cages for reversible photochromism
The development of supramolecular porous crystalline frameworks with architectures from secondary building units remains challenging. Here, the authors report ammonium node-assembled clusters as supramolecular secondary building units to sustain a body centered cubic hydrogenbonded framework with octahedral cages for haloform encapsulation and reversible photochromism.
- Xiaojun Ding
- , Jing Chen
- & Gang Ye
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