Themed collection 2024 Chemical Science Covers

151 items - Showing page 1 of 3
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Graphical abstract: Front cover
From the themed collection: 2024 Chemical Science Covers
Open Access Perspective

Outer-sphere effects on the O2 sensitivity, catalytic bias and catalytic reversibility of hydrogenases

The comparison of homologous hydrogenases, in which the same inorganic active site is surrounded by a variable protein matrix, has demonstrated that residues that are remote from the active site may have a great influence on catalytic properties.

Graphical abstract: Outer-sphere effects on the O2 sensitivity, catalytic bias and catalytic reversibility of hydrogenases
Open Access Perspective

Connecting chemical worlds for a sustainable future

While chemistry has a role as the central science, other sciences are also central to solving the problems that lie ahead. To be more effective in this endeavor, we need to connect disciplines and break down the silos that artificially separate them.

Graphical abstract: Connecting chemical worlds for a sustainable future
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Perspective

Bioorthogonal chemistry of polyoxometalates – challenges and prospects

Advances in bioorthogonal polyoxometalate (POM) chemistry will open exciting opportunities for the controlled use of stimuli-responsive POM-based organic–inorganic nanoassemblies in biomedical applications as well as catalysis and electronics.

Graphical abstract: Bioorthogonal chemistry of polyoxometalates – challenges and prospects
Open Access Perspective

Enzymatic and synthetic regulation of polypeptide folding

This perspective focuses on the latest understanding of the folding-promotion mechanisms by chaperones and oxidoreductases and recent progress in the development of chemical mimics that possess activities comparable to enzymes.

Graphical abstract: Enzymatic and synthetic regulation of polypeptide folding
Open Access Perspective

Challenges in the design and synthesis of self-assembling molecules as selective contacts in perovskite solar cells

We summarize the challenges to design and synthesize self-assembled molecules, discussing their synthetic routes and structural features in relationship to the efficiency of perovskite-based solar cells where they are applied as selective contacts.

Graphical abstract: Challenges in the design and synthesis of self-assembling molecules as selective contacts in perovskite solar cells
From the themed collection: 2024 Chemical Science Covers
Open Access Perspective

The supersaturation perspective on the amyloid hypothesis

The current amyloid hypothesis does not capture the full complexity of Aβ aggregation. Here we lay out a supersaturation framework to better understand the molecular mechanism of Alzheimer’s disease and to develop more effective treatment strategies.

Graphical abstract: The supersaturation perspective on the amyloid hypothesis
From the themed collection: 2024 Chemical Science Covers
Open Access Review Article

Adamantane-type clusters: compounds with a ubiquitous architecture but a wide variety of compositions and unexpected materials properties

Adamantane-type clusters exhibit a huge diversity of chemical compositions, structural details, and resulting properties.

Graphical abstract: Adamantane-type clusters: compounds with a ubiquitous architecture but a wide variety of compositions and unexpected materials properties
From the themed collection: 2024 Chemical Science Covers
Open Access Review Article

The status and challenging perspectives of 3D-printed micro-batteries

Recent advances and present status of 3D-printed micro-batteries with respect to the connection between printable materials and printing techniques, as well as the rational design considerations are summarized.

Graphical abstract: The status and challenging perspectives of 3D-printed micro-batteries
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Review Article

Non-destructive real-time monitoring and investigation of the self-assembly process using fluorescent probes

Fluorescent probes for detecting complex environments in vivo play an important role in self-assembly in vitro.

Graphical abstract: Non-destructive real-time monitoring and investigation of the self-assembly process using fluorescent probes
From the themed collection: 2024 Chemical Science Covers
Open Access Review Article

Water-stable metal–organic frameworks (MOFs): rational construction and carbon dioxide capture

This review highlights the design and synthesis of water-stable MOFs, as well as their applications in carbon capture.

Graphical abstract: Water-stable metal–organic frameworks (MOFs): rational construction and carbon dioxide capture
From the themed collection: 2024 Chemical Science Covers
Open Access Review Article

Hollow carbon-based materials for electrocatalytic and thermocatalytic CO2 conversion

This review covers the syntheses, functionalization strategies of hollow carbon-based materials, as well as their applications in electrocatalytic and thermocatalytic CO2 conversion.

Graphical abstract: Hollow carbon-based materials for electrocatalytic and thermocatalytic CO2 conversion
Open Access Edge Article

Energy exchange between Nd3+ and Er3+ centers within molecular complexes

A pure heterometallic coordination complex featuring the [ErNdEr] at the core has unveiled an unprecedented phenomenon of two simultaneous intramolecular energy energy transfer between Nd3+ and Er3+.

Graphical abstract: Energy exchange between Nd3+ and Er3+ centers within molecular complexes
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Entropy in catalyst dynamics under confinement

We use an active learning scheme for free energy calculations to investigate catalyst dynamics under confinement, and find that confinement enhances the structural dynamics of catalysts, enabling the reactions to proceed under milder conditions.

Graphical abstract: Entropy in catalyst dynamics under confinement
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Diverse quantum interference regimes in intramolecular singlet fission chromophores with thiophene-based linkers

This work explores intramolecular singlet fission chromophores having diverse thiophene-based linkers and highlights the relation between quantum interference and nonadiabatic coupling in the multiexciton formation step of singlet fission.

Graphical abstract: Diverse quantum interference regimes in intramolecular singlet fission chromophores with thiophene-based linkers
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

A critical factor in reactive oxygen species (ROS) studies: the need to understand the chemistry of the solvent used: the case of DMSO

Reactive oxygen species (ROS) play critical roles in normal physiological processes including cellular signaling and immune responses.

Graphical abstract: A critical factor in reactive oxygen species (ROS) studies: the need to understand the chemistry of the solvent used: the case of DMSO
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Perylene-derivative singlet exciton fission in water solution

This study demonstrates that water-soluble perylene-derivative dimers can efficiently induce either singlet fission or charge separation upon photoactivation.

Graphical abstract: Perylene-derivative singlet exciton fission in water solution
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Multiplexed no-wash cellular imaging using BenzoTag, an evolved self-labeling protein

BenzoTag, a self-labeling protein developed using molecular evolution, enables wash-free labeling in live cells in seconds using low nanomolar dye concentrations.

Graphical abstract: Multiplexed no-wash cellular imaging using BenzoTag, an evolved self-labeling protein
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Resolving molecular frontier orbitals in molecular junctions with kHz resolution

The current–voltage characteristics of molecular junctions can be measured with a time resolution two orders of magnitude higher than previous methods, allowing detailed characterization of electronic states during mechanical modulation.

Graphical abstract: Resolving molecular frontier orbitals in molecular junctions with kHz resolution
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

An electron-losing regulation strategy for stripping modulation towards a highly reversible Zn anode

An electron-losing regulation strategy for stripping modulation by adding Oxolane (OL) additives is proposed. According to experimental results, new guidance for designing electrolyte additives is provided.

Graphical abstract: An electron-losing regulation strategy for stripping modulation towards a highly reversible Zn anode
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Designer pseudopeptides: autofluorescent polygonal tubes via Phe-zipper and triple helix

Phenylene urea, used as an aglet at the N-terminus, facilitates self-assembly. Simple dipeptides with phenylene urea assembled to form autofluorescent polygonal peptide tubes, while bis-urea pseudopeptides formed autofluorescent spherical vesicles.

Graphical abstract: Designer pseudopeptides: autofluorescent polygonal tubes via Phe-zipper and triple helix
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Structural basis of Pseudomonas aeruginosa penicillin binding protein 3 inhibition by the siderophore-antibiotic cefiderocol

The cephalosporin antibiotics cefiderocol, ceftazidime and cefepime undergo fragmentation on reaction with penicillin binding protein 3 from Pseudomonas aeruginosa.

Graphical abstract: Structural basis of Pseudomonas aeruginosa penicillin binding protein 3 inhibition by the siderophore-antibiotic cefiderocol
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Helically chiral multiresonant thermally activated delayed fluorescent emitters and their use in hyperfluorescent organic light-emitting diodes

Helically chiral MR-TADF compounds tBuPh-BN and DPA-tBuPh-BN show narrowband circularly polarized luminescence that translates into high-performance hyperfluorescent organic light-emitting diodes.

Graphical abstract: Helically chiral multiresonant thermally activated delayed fluorescent emitters and their use in hyperfluorescent organic light-emitting diodes
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Creating a suprazyme: integrating a molecular enzyme mimic with a nanozyme for enhanced catalysis

We present a supramolecular assembly of cucurbituril macrocycles and organomodified gold nanoparticles, referred to as “suprazyme”, with catalytic activity surpassing its components by over 50 times in a model oximation reaction.

Graphical abstract: Creating a suprazyme: integrating a molecular enzyme mimic with a nanozyme for enhanced catalysis
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Metadynamics investigation of lanthanide solvation free energy landscapes and insights into separations energetics

In this work, molecular dynamics simulation with metadynamics is performed to understand the relationship between lanthanide ion solvation energetics and separation performance.

Graphical abstract: Metadynamics investigation of lanthanide solvation free energy landscapes and insights into separations energetics
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Precision-engineered metal–organic frameworks: fine-tuning reverse topological structure prediction and design

A fine-tuned reverse topological approach is developed for structure prediction and 94 823 precision-engineered metal–organic frameworks are designed.

Graphical abstract: Precision-engineered metal–organic frameworks: fine-tuning reverse topological structure prediction and design
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Fulleride superconductivity tuned by elastic strain due to cation compositional disorder

We unveil a clear link between cation structural-disorder in the tetrahedral sites of fcc-structured superconducting A3C60 fullerides and their electronic properties as manifested by a reduction of the superconducting transition temperature, Tc.

Graphical abstract: Fulleride superconductivity tuned by elastic strain due to cation compositional disorder
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Acid-sensitive photoswitches: towards catalytic on-demand release of stored light energy

Molecular solar thermal energy storage route using teralylenes with pyridine protonatable moieties for on-demand energy release achieved upon protonation with catalytic amounts of acid.

Graphical abstract: Acid-sensitive photoswitches: towards catalytic on-demand release of stored light energy
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Charge-assisted hydrogen bonding in a bicyclic amide cage: an effective approach to anion recognition and catalysis in water

A hydrogen bonding cage effectively recognizes anions in water and catalyzes the oxidation of oxalate.

Graphical abstract: Charge-assisted hydrogen bonding in a bicyclic amide cage: an effective approach to anion recognition and catalysis in water
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Electron diffraction and solid-state NMR reveal the structure and exciton coupling in a eumelanin precursor

A bottom-up investigation strategy for eumelanin's structure–property relationship by a multidisciplinary approach, using 3D electron diffraction, solid-state NMR, density functional theory and electronic spectroscopy.

Graphical abstract: Electron diffraction and solid-state NMR reveal the structure and exciton coupling in a eumelanin precursor
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Water splitting over transition metal-doped SrTiO3 photocatalysts with response to visible light up to 660 nm

Highly efficient water splitting under visible light was achieved using Ir, Sb, and Al-codoped SrTiO3 of a single particulate photocatalyst by a solid-state reaction followed by flux treatment using SrCl2 and loading of a RhCrOx cocatalyst.

Graphical abstract: Water splitting over transition metal-doped SrTiO3 photocatalysts with response to visible light up to 660 nm
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Direct photochemical intramolecular [4 + 2] cycloadditions of dehydrosecodine-type substrates for the synthesis of the iboga-type scaffold and divergent [2 + 2] cycloadditions employing micro-flow system

Photocyclisation reactions offer a convenient and versatile method for constructing complex polycyclic scaffolds, particularly in the synthesis of natural products.

Graphical abstract: Direct photochemical intramolecular [4 + 2] cycloadditions of dehydrosecodine-type substrates for the synthesis of the iboga-type scaffold and divergent [2 + 2] cycloadditions employing micro-flow system
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Excited-state symmetry breaking is an ultrasensitive tool for probing microscopic electric fields

Symmetry-breaking approach exceeds the sensitivity of the vibrational Stark effect. Nitrile groups report on microscopic electric fields without interference from hydrogen-bonding interactions.

Graphical abstract: Excited-state symmetry breaking is an ultrasensitive tool for probing microscopic electric fields
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Revisiting a classic carbocation – DFT, coupled-cluster, and ab initio molecular dynamics computations on barbaralyl cation formation and rearrangements

Computations were used to model the rearrangement of the barbaralyl cation, a structure that demonstrates nonclassical bridging, homoconjugation, fluxionality, non-statistical dynamic effects, post-transition state bifurcations, and tunneling!

Graphical abstract: Revisiting a classic carbocation – DFT, coupled-cluster, and ab initio molecular dynamics computations on barbaralyl cation formation and rearrangements
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Probing the non-covalent forces key to the thermodynamics of β-hairpin unfolding

Per-residue analysis of the thermodynamics of unfolding of β-hairpins provides insight into the non-covalent interactions between residues, and the individual contributions of residues and secondary structure type to the ΔH, ΔS, and ΔCp of unfolding.

Graphical abstract: Probing the non-covalent forces key to the thermodynamics of β-hairpin unfolding
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

π-Extended ligands with dual-binding behavior: hindered rotation unlocks unexpected reactivity in cyclometalated Pt complexes

Naphthalenyl- and anthracenylpyridine cyclometalating ligands bind to Pt in different ways, which can be used to tune their emissive properties.

Graphical abstract: π-Extended ligands with dual-binding behavior: hindered rotation unlocks unexpected reactivity in cyclometalated Pt complexes
From the themed collection: #MyFirstChemSci 2024
Open Access Edge Article

Targeted protein degradation in the mitochondrial matrix and its application to chemical control of mitochondrial morphology

Mitochondrial-targeted protein degradation (mitoTPD) is explored using small-molecule degraders that leverage a mitochondria-localized protease. This approach restored mitochondrial morphology and shows potential for drug discovery.

Graphical abstract: Targeted protein degradation in the mitochondrial matrix and its application to chemical control of mitochondrial morphology
From the themed collection: #MyFirstChemSci 2024
Open Access Edge Article

Correlated shapeshifting and configurational isomerization

Rearrangements of a bullvalene cage between constitutional isomers are directed by configurational isomerization of a pendant group through noncovalent interactions.

Graphical abstract: Correlated shapeshifting and configurational isomerization
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

A guide to bullvalene stereodynamics

Population-weighted principal moments of inertia and exit vectors analyses of shapeshifting bullvalenes reveals the diversity in their 3D structures.

Graphical abstract: A guide to bullvalene stereodynamics
From the themed collection: #MyFirstChemSci 2024
Open Access Edge Article

Direct evidence for ligand-enhanced activity of Cu(I) sites

Cu(I) sites enhance their activity upon coordination with oxygen-donor ligands, as demonstrated by infrared photodissociation spectroscopy and ab initio calculations.

Graphical abstract: Direct evidence for ligand-enhanced activity of Cu(i) sites
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Water–glycan interactions drive the SARS-CoV-2 spike dynamics: insights into glycan-gate control and camouflage mechanisms

We zoomed in on the SARS-CoV-2 interaction layers in open and closed states, revealing a protein–solvent–glycan polarization network supporting the open state. Besides, we showed that the glycan shield maintains viral camouflage in both states.

Graphical abstract: Water–glycan interactions drive the SARS-CoV-2 spike dynamics: insights into glycan-gate control and camouflage mechanisms
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Gradual evolution of a homo-L-peptide world on homo-D-configured RNA and DNA

Nucleic acids with hypermodified nucleosides perform stereoselective RNA/DNA-mediated peptide coupling, followed by thermal release of the peptide, leading to temperature-driven one-pot cycles with gradual homochiral L-peptide enrichment.

Graphical abstract: Gradual evolution of a homo-l-peptide world on homo-d-configured RNA and DNA
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Phospha-bicyclohexene-germylenes exhibiting unexpected reactivity

Featuring mostly nucleophilic but also electrophilic properties, phosphorus-bridged bicyclic germylenes require steric shielding to be protected from decomposition. The two nucleophilic sites, Ge and P, show competing reactivity.

Graphical abstract: Phospha-bicyclohexene-germylenes exhibiting unexpected reactivity
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Macrocyclic bis-diphosphenes demonstrating bimetallic exo- and endo-cyclic binding modes

Macrocyclic bis-diphosphenes, formally heavier derivatives of macrocyclic azobenzenes, are accessed for the first time.

Graphical abstract: Macrocyclic bis-diphosphenes demonstrating bimetallic exo- and endo-cyclic binding modes
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Straightforward computational determination of energy-transfer kinetics through the application of the Marcus theory

Energy transfer barriers through affordable calculations. Density functional theory is shown to be a reliable tool to compute barriers between relatively large systems through the application of the classical formulation of the Marcus theory.

Graphical abstract: Straightforward computational determination of energy-transfer kinetics through the application of the Marcus theory
From the themed collection: #MyFirstChemSci 2024
Open Access Edge Article

Quantifying near-symmetric molecular distortion using symmetry-coordinate structural decomposition

A new method for analyzing crystal structures of molecules distorted from their regular shape separates atom movements into symmetry modes so that molecular conformation of functional materials can be quantified and compared easily across databases.

Graphical abstract: Quantifying near-symmetric molecular distortion using symmetry-coordinate structural decomposition
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Electronic energy transfer ionization in naphthalene–CO2 clusters reveals excited states of dry ice

Vacuum ultraviolet excitation of CO2 clusters and concomitant energy transfer to naphthalene leads to ionization which provides an understanding of excited state chemistry relevant to astrochemistry.

Graphical abstract: Electronic energy transfer ionization in naphthalene–CO2 clusters reveals excited states of dry ice
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

Probing machine learning models based on high throughput experimentation data for the discovery of asymmetric hydrogenation catalysts

High-throughput experimentation and computational chemistry were used to build machine learning models for Rh-catalyzed asymmetric olefin hydrogenation, identifying numerous factors affecting the accuracy of selectivity and reactivity predictions.

Graphical abstract: Probing machine learning models based on high throughput experimentation data for the discovery of asymmetric hydrogenation catalysts
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Mechanochemical generation of aryne

An aryne intermediate is generated upon mechanical dissociation of a benzocyclobutene mechanophore. Such force-generated reactive species could be used in materials and synthesis.

Graphical abstract: Mechanochemical generation of aryne
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Breaking the scaling relations of effective CO2 electrochemical reduction in diatomic catalysts by adjusting the flow direction of intermediate structures

High-throughput calculations show 11 flow directions from *CO to *CHO on DACs. The catalyst disrupting the linear adsorption relationship is linked to multiple, not just one, flow direction.

Graphical abstract: Breaking the scaling relations of effective CO2 electrochemical reduction in diatomic catalysts by adjusting the flow direction of intermediate structures
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

An innovative chalcogenide transfer agent for improved aqueous quantum dot synthesis

Development of an innovative chalcogenide transfer vehicle for improving large scale aqueous quantum dot synthesis.

Graphical abstract: An innovative chalcogenide transfer agent for improved aqueous quantum dot synthesis
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Machine learning demonstrates the impact of proton transfer and solvent dynamics on CO2 capture in liquid ammonia

Machine learning potentials combined with enhanced sampling methods and grand-canonical Monte Carlo simulations allow for accurate modeling of CO2 sorption into condensed-phase amines, highlighting the impact of proton transfer and solvent dynamics.

Graphical abstract: Machine learning demonstrates the impact of proton transfer and solvent dynamics on CO2 capture in liquid ammonia
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Redox-active chemical chaperones exhibiting promiscuous binding promote oxidative protein folding under condensed sub-millimolar conditions

A promiscuous protein binder with redox activity efficiently promotes oxidative protein folding under condensed sub-millimolar conditions.

Graphical abstract: Redox-active chemical chaperones exhibiting promiscuous binding promote oxidative protein folding under condensed sub-millimolar conditions
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Two- and three-photon processes during photopolymerization in 3D laser printing

This study explores the mechanisms of photoactivation and radical formation during 3D laser printing using photoresists with a DETC photoinitiator. The role of DETC in high triplet states during radical polymerization is revealed.

Graphical abstract: Two- and three-photon processes during photopolymerization in 3D laser printing
From the themed collection: 2024 ChemSci Pick of the Week Collection
Open Access Edge Article

Boosting charge separation in organic photovoltaics: unveiling dipole moment variations in excited non-fullerene acceptor layers

Neat ITIC films are found to facilitate charge transfer, dissociation, and free carrier formation without the need for donor layers. This process, driven by V-type molecular stacking, significantly boosts organic photovoltaic efficiency.

Graphical abstract: Boosting charge separation in organic photovoltaics: unveiling dipole moment variations in excited non-fullerene acceptor layers
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

4f-Orbital mixing increases the magnetic susceptibility of Cp′3Eu

X-ray absorption spectroscopy and variable temperature magnetometry show evidence of 4f-orbital mixing in Cp′3Eu, which increases its magnetic susceptibility.

Graphical abstract: 4f-Orbital mixing increases the magnetic susceptibility of Cp′3Eu
From the themed collection: 2024 ChemSci Pick of the Week Collection
Open Access Edge Article

Preparation of intrinsically fragile bent crystals

A methylated flufenamic acid gave two different polymorphs, mechanically deformable α form and fragile γ form. We successfully obtained the “intrinsically brittle” bent γ crystal by vapor-induced phase transition from the bent α crystal.

Graphical abstract: Preparation of intrinsically fragile bent crystals
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Rh(III)-catalyzed building up of used heterocyclic cations: facile access to white-light-emitting materials

This work unlocks an opportunity to rapidly construct fused heterocyclic cations for efficient screening of single-molecular white-light-emitting materials and pure red-light-emitting materials.

Graphical abstract: Rh(iii)-catalyzed building up of used heterocyclic cations: facile access to white-light-emitting materials
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Step-induced double-row pattern of interfacial water on rutile TiO2(110) under electrochemical conditions

Unraveling the interfacial structure on aqueous stepped TiO2 surface by combing electrochemical scanning tunneling microscopy and machine learning accelerated molecular dynamics.

Graphical abstract: Step-induced double-row pattern of interfacial water on rutile TiO2(110) under electrochemical conditions
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Controlled nanocrystallization of gold nanoclusters within surfactant envelopes: enhancing aggregation-induced emission in solution

Sphere-shaped amorphous aggregates of Au8 clusters entrapped within SDS nanoenvelopes are transformed into rhombic single nanocrystals upon simple sonication in solution, where the aggregation-induced emission (AIE) from Au8 is notably enhanced.

Graphical abstract: Controlled nanocrystallization of gold nanoclusters within surfactant envelopes: enhancing aggregation-induced emission in solution
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Molecular “backbone surgery” of electron-deficient heteroarenes based on dithienopyrrolobenzothiadiazole: conformation-dependent crystal structures and charge transport properties

A conformation engineering strategy is proposed to manipulate the crystal structure of electron deficient heteroarenes for superior n-type organic semiconductors with an electron mobility of 3.5 cm2 V−1 s−1.

Graphical abstract: Molecular “backbone surgery” of electron-deficient heteroarenes based on dithienopyrrolobenzothiadiazole: conformation-dependent crystal structures and charge transport properties
From the themed collection: 2024 Chemical Science HOT Article Collection
Open Access Edge Article

A first-in-class dual-chelator theranostic agent designed for use with imaging-therapy radiometal pairs of different elements

Covalent DFOB-DOTA dual chelator (‘D2’) binds 89Zr (DFOB) and 177Lu (DOTA) regio-selectively enabling 89Zr–177Lu pairing as a novel cancer-targeting theranostic.

Graphical abstract: A first-in-class dual-chelator theranostic agent designed for use with imaging-therapy radiometal pairs of different elements
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Helically twisted nanoribbons via stereospecific annulative π-extension reaction employing [7]helicene as a molecular wrench

Enantiopure [7]helicenes were utilized as molecular wrenches at the terminal K-regions of the conjugated pyrene nanoribbon to achieve a 99.9% conformational population of a single-handed helical ribbon with an end-to-end twist of 171°.

Graphical abstract: Helically twisted nanoribbons via stereospecific annulative π-extension reaction employing [7]helicene as a molecular wrench
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

PYTA: a universal chelator for advancing the theranostic palette of nuclear medicine

PYTA is demonstrated to rapidly and stably complex 225Ac, 177Lu, 111In, and 44Sc, a “superfecta” of complementary but chemically distinct radiometals for targeted theranostic applications.

Graphical abstract: PYTA: a universal chelator for advancing the theranostic palette of nuclear medicine
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Synthesis of polyoxothiometalates through site-selective post-editing sulfurization of polyoxometalates

This work presents a direct site-selective oxygen–sulfur substitution method that enables transforming polyoxometalates [XW12O40]4− (X = Si, Ge) to Keggin-type polyoxothiometalates [XW12O28S12]4− using sulfurizing reagents in an organic solvent.

Graphical abstract: Synthesis of polyoxothiometalates through site-selective post-editing sulfurization of polyoxometalates
From the themed collection: 2024 ChemSci Pick of the Week Collection
Open Access Edge Article

A pair of conjoined trinuclear sub-frameworks in a pentanuclear double-cavity discrete coordination cage

Multi-cavity discrete coordination cages (MCDCC) are prepared by mixing Pd(II) with designer bis- and tris-monodentate ligands in a 5 : 4 : 4 ratio. Two trinuclear sub-frameworks are conjoined in the molecular architecture of the ensuing MCDCC.

Graphical abstract: A pair of conjoined trinuclear sub-frameworks in a pentanuclear double-cavity discrete coordination cage
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Macrophage-engaging peptidic bispecific antibodies (pBsAbs) for immunotherapy via a facile bioconjugation strategy

A novel peptidic bispecific antibody (pBsAb) is developed by integrating EGFR-binding cyclic peptide with an anti-SIRP-α antibody, promotes cancer cells recognition, suppresses "don't eat me" signal, and enhances phagocytosis and tumour infiltration.

Graphical abstract: Macrophage-engaging peptidic bispecific antibodies (pBsAbs) for immunotherapy via a facile bioconjugation strategy
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Spontaneous ligand loss by soft landed [Ni(bpy)3]2+ ions on perfluorinated self-assembled monolayer surfaces

[Ni(bpy)3]2+ soft landed on surfaces dissociates spontaneously. Codeposition of stable anions with cations enables preservation of the structure of [Ni(bpy)3]2+.

Graphical abstract: Spontaneous ligand loss by soft landed [Ni(bpy)3]2+ ions on perfluorinated self-assembled monolayer surfaces
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

A water-soluble, cell-permeable Mn(II) sensor enables visualization of manganese dynamics in live mammalian cells

A water-soluble, cell-permeable, turn-on Mn2+ sensor visualizes Mn2+ dynamics live and provides an estimate for endogenous labile Mn2+ in a living mammalian cell.

Graphical abstract: A water-soluble, cell-permeable Mn(ii) sensor enables visualization of manganese dynamics in live mammalian cells
From the themed collection: 2024 Chemical Science Covers
Open Access Edge Article

Pathway-dependent supramolecular polymerization by planarity breaking

We introduce planarity breaking as a new design strategy for controlled supramolecular polymerization.

Graphical abstract: Pathway-dependent supramolecular polymerization by planarity breaking
From the themed collection: 2024 Chemical Science HOT Article Collection
151 items - Showing page 1 of 3

About this collection

This collection includes all the articles featured on the covers of Chemical Science in 2024. We hope you enjoy browsing through the collection and seeing the cover images on the front page of each Advance Article PDF! As with all Chemical Science articles, they are completely free to access and read. If a particular cover image appeals to you, do feel free to share on social media using the buttons on each article landing page and use our hashtag: #ChemSciCovers

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