Nanoscience and technology articles within Nature Chemistry

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  • Article |

    A practical realization of selective IR-driven reaction-rate control has been hampered by competing processes leading to sample heating. Now, the acceleration of a bimolecular ground-state reaction in solution using the IR excitation of a vibration connected to the reaction coordinate is demonstrated. The behaviour is monitored and understood using a combination of femtosecond IR-pump IR-probe spectroscopy and theoretical calculations.

    • Till Stensitzki
    • , Yang Yang
    •  & Karsten Heyne

  • Article |

    The ability to merge the photophysical properties of semiconductor quantum dots with those of well-understood and inexpensive molecular chromophores is important for the development of various emerging photonic and optoelectronic technologies. Now, 1-pyrenecarboxylic acid-functionalized CdSe quantum dots have been shown to undergo thermally activated delayed photoluminescence and display tunable photophysical properties.

    • Cédric Mongin
    • , Pavel Moroz
    •  & Felix N. Castellano

  • Article |

    Photosynthesis uses sunlight to oxidize or reduce reaction centres multiple times and prepare them for multiple-electron-transfer reactions. Now, it has been shown that a molecular proxy for a multiple-electron-transfer electrocatalyst can be oxidized twice by dye molecules when both are anchored to a mesoporous TiO2 thin film and excited with low-intensity visible light.

    • Hsiang-Yun Chen
    •  & Shane Ardo

  • News & Views |

    Non-covalent interactions can organize planar molecules into two-dimensional arrays. It has now been shown that such arrays can be combined at the solid–liquid interface into bilayered heterostructures.

    • Manfred Buck

  • News & Views |

    Building materials with clusters instead of atoms promises unconventional properties, but those 'superatomic solids' are often too fragile to manipulate. Now, intercalating a guest within an ionic layered solid made of fullerenes and metal chalcogenide clusters greatly alters its conductivity and optical properties without disrupting its crystalline structure.

    • Shiv N. Khanna
    •  & Arthur C. Reber

  • Article |

    Water oxidation is key to the production of chemical fuels from electricity. Now, guided by theory, NiCoFeP oxyhydroxide catalysts have been developed that require an overpotential lower than that required by IrO2. In situ soft X-ray absorption studies of neutral-pH NiCoFeP catalysts indicate formation of Ni4+, which is favourable for water oxidation.

    • Xueli Zheng
    • , Bo Zhang
    •  & Edward H. Sargent

  • Article |

    Primer exchange reaction (PER) cascades have now been used to grow nascent single-stranded DNA with user-specified sequences following prescribed reaction pathways. PER synthesis occurs in a programmable, autonomous, in situ and environmentally responsive fashion, providing a platform for engineering molecular circuits and devices with a wide range of sensing, monitoring, recording, signal processing and actuation capabilities.

    • Jocelyn Y. Kishi
    • , Thomas E. Schaus
    •  & Peng Yin

  • Review Article |

    DNA nanotechnology provides a versatile toolbox for engineering synthetic circuits in living cells. This Review discusses how nanostructures made from nucleic acids can enable biocomputation and also be readily interfaced with a variety of intracellular and in vivo components to facilitate synthetic biology applications.

    • Jiang Li
    • , Alexander A. Green
    •  & Chunhai Fan

  • News & Views |

    DNA double helical structures are supramolecular assemblies that are typically held together by classical Watson–Crick pairing. Now, nucleotide chelation of silver ions supports an extended silver–DNA hybrid duplex featuring an uninterrupted silver array.

    • Pascal Auffinger
    •  & Eric Ennifar

  • Article |

    Intercalation — a cornerstone of materials science with wide-ranging applications — has now been demonstrated in a superatomic crystal. A redox-active tetracyanoethylene guest was inserted into the lattice of a material consisting of alternate layers of {Co6Te8} clusters and C60 fullerenes, leading to a single-crystal-to-single-crystal transformation that significantly modulates the material's optical and electrical transport properties.

    • Evan S. O'Brien
    • , M. Tuan Trinh
    •  & Xavier Roy

  • Article |

    Supramolecular heterostructures have been formed by the sequential deposition of two molecular layers with different symmetries and lattice constants — one consisting of carboxylic acid, the other of cyanuric acid and melamine — on a hexagonal boron nitride substrate. Characterization by atomic force microscopy and molecular dynamics simulations shows epitaxial arrangements between the layers.

    • Vladimir V. Korolkov
    • , Matteo Baldoni
    •  & Peter H. Beton

  • Article |

    Octameric complexes of serine are long known for their special properties, such as their enhanced stability and preference for homochirality. Yet, there is no consensus on their structures. Now, experimental data on the serine octamer–dichloride complex is presented that supports a highly symmetrical, highly stable structure.

    • Jongcheol Seo
    • , Stephan Warnke
    •  & Gert von Helden

  • Article |

    A metallo–DNA hybrid nanowire composed only of silver-mediated base pairs has been prepared and its crystal structure resolved by X-ray diffraction. The nanowire, which is 2 nm wide and whose length reaches the μm to mm scale, holds silver ions into uninterrupted one-dimensional arrays along the DNA helical axis.

    • Jiro Kondo
    • , Yoshinari Tada
    •  & Yoshiyuki Tanaka

  • Article |

    Controlling liposome shape, arrangement and dynamics is important for biophysical studies and synthetic biology applications. Now, using a family of reconfigurable DNA nanocages as templates, spherical, tubular, toroidal and helical liposomes with predefined geometry have been produced. DNA-guided membrane fusion and bending is also demonstrated.

    • Zhao Zhang
    • , Yang Yang
    •  & Chenxiang Lin

  • Article |

    A DNA-based reaction network has now been developed that creates a French flag pattern with immobile and sharp borders from a shallow initial concentration gradient. The output pattern can be used to control the macroscopic organization of DNA-decorated particles thereby inducing a French flag pattern of colloidal aggregation.

    • Anton S. Zadorin
    • , Yannick Rondelez
    •  & André Estevez-Torres

  • Article |

    Although DNA nanotechnology has found many applications in developing functional structures, there has never been an independent device contained within a 3D crystal. Now, a self-assembled three-state device that can change the colour of its crystal by diffusion of DNA-ligated dyes has been reported, representing the potential to develop programmable nanomechanical devices.

    • Yudong Hao
    • , Martin Kristiansen
    •  & Nadrian C. Seeman

  • Article |

    A dynamic foldamer scaffold has now been ligated to a water-compatible, metal-centred binding site and a conformationally responsive fluorophore to form a receptor mimic that inserts into the membrane of artificial vesicles. Binding of specific carboxylate ligands induces a global conformational change that depends on the structure of the ligand, and can be detected via fluorescence.

    • Francis G. A. Lister
    • , Bryden A. F. Le Bailly
    •  & Jonathan Clayden

  • Article |

    Converting oxygen-rich biomass into fuels requires the removal of oxygen groups through hydrodeoxygenation. MoS2 monolayer sheets decorated with isolated Co atoms bound to sulfur vacancies in the basal plane have now been synthesized that exhibit superior catalytic activity, selectivity and stability for the hydrodeoxygenation of 4-methylphenol to toluene when compared to conventionally prepared materials.

    • Guoliang Liu
    • , Alex W. Robertson
    •  & Shik Chi Edman Tsang

  • Article |

    Di- and tripeptide building blocks in which the C-terminus has been converted into an aldehyde are shown to form dynamic chemical networks through imine condensation followed by the formation of cyclic N,N-acetals. The networks exhibit multi-phase growth of prion-like assemblies that template the formation of chain-length-specific peptide-like oligomers.

    • Chenrui Chen
    • , Junjun Tan
    •  & David G. Lynn

  • Article |

    Simple peptides are shown to assemble into well-defined amyloid phases with paracrystalline surfaces that can catalyse reactions in an enantioselective manner. Modifying individual amino acids in the building blocks enables the structure of the assembled aggregates, and the reactions that they can catalyse, to be controlled predictably.

    • Tolulope O. Omosun
    • , Ming-Chien Hsieh
    •  & David G. Lynn

  • News & Views |

    The process of electronic energy transfer between molecules has long fascinated chemists. Femtosecond spectroscopy measurements of a series of molecular dimers now reveal signals that arise from non-Born–Oppenheimer coupling, suggesting a new mechanism to enhance energy transfer.

    • Daniel B. Turner

  • Article |

    Synthetic heterodimers provide a platform to demonstrate molecular design principles of vibronic coupling. Now, it has been shown that quantum beating caused by vibronic coupling can be controlled by packing a structurally flexible heterodimer on single-walled carbon nanotubes. This quantum beating requires a vibration to be resonant with the energy gap between excited states and structural rigidity.

    • Lili Wang
    • , Graham B. Griffin
    •  & Gregory S. Engel

  • Article |

    A scalable, one-pot, solution-based protocol for the controlled synthesis of uniform non-spherical block copolymer micelles is a desirable but challenging target. Now, a polymerization-induced crystallization-driven self-assembly process has been developed that offers facile access to 1D and platelet micelle morphologies and to near monodisperse cylinders of controlled length.

    • Charlotte E. Boott
    • , Jessica Gwyther
    •  & Ian Manners

  • Article |

    The synthesis of well-defined planar polymers presents a significant challenge for chemists seeking to investigate their potential for use in emerging technologies. Now, a two-dimensional conjugated aromatic polymer has been synthesized via endogenous solid-state polymerization of pre-arranged monomers, and its performance as an organic anode in an ambient temperature sodium cell tested.

    • Wei Liu
    • , Xin Luo
    •  & Kian Ping Loh

  • News & Views |

    Molecular daisy-chain structures are typically made up of two interlocked components and can exhibit muscle-like contraction and extension in one dimension. Zinc-based multicomponent systems that can operate in two and three dimensions have now been designed and synthesized.

    • Karine Fournel-Marotte
    •  & Frédéric Coutrot

  • Perspective |

    Although metal–organic frameworks are often seen as rigid crystalline structures, there is growing evidence that large-scale flexibility, the presence of defects, and long-range disorder are not the exception, but rather the norm. Here we propose that these concepts are inescapably intertwined, and the interfaces between them offer prospects for enhancement of materials' functionalities.

    • Thomas D. Bennett
    • , Anthony K. Cheetham
    •  & François-Xavier Coudert

  • Article |

    The operational simplicity of modifying the surfaces of thiol-capped gold nanoparticles has been a hallmark of their success in materials chemistry, despite having limited control over the surface composition. Now, SNAr chemistry on activated perfluoroaromatics has been shown to mimic this simplicity and allow for the synthesis of atomically precise nanomolecules.

    • Elaine A. Qian
    • , Alex I. Wixtrom
    •  & Alexander M. Spokoyny

  • Article |

    The transmission of chemical information across lipid bilayer membranes is crucial in biological systems. Now, an artificial chemical system able to both transduce and amplify chemical signals across a membrane has been developed. The system works by exploiting the controlled translocation of a synthetic molecule that is embedded within a vesicle membrane.

    • Matthew J. Langton
    • , Flore Keymeulen
    •  & Christopher A. Hunter

  • Article |

    Effective regulation over the motion of self-propelled micro- and nanomotors is a challenging proposition. Now, self-assembled stomatocyte nanomotors with thermoresponsive polymer brushes have been designed that sense changes in local temperature and regulate the accessibility of the hydrogen peroxide fuel — thereby adjusting the speed and behaviour of nanomotor itself.

    • Yingfeng Tu
    • , Fei Peng
    •  & Daniela A. Wilson

  • Article |

    Aggregation usually prevents dissolution of graphene in water. Now, hydroxide ion adsorption has been shown to allow the stabilization of true single-layer graphene in water — with no surfactant required — so long as the liquid is degassed beforehand. The resulting aqueous dispersions can contain high concentrations of exfoliated graphene that are stable for several months.

    • George Bepete
    • , Eric Anglaret
    •  & Carlos Drummond

  • Article |

    Homogeneous crystal nucleation has now been observed by transmission electron microscopy in real time on a molecular scale. Countercation-dependent observations of polyoxometalate proto-crystal formation confirm existence of a higher energy classical molecular attachment mechanism, as well as a lower energy two-step mechanism via an intermediate dense phase.

    • Roy E. Schreiber
    • , Lothar Houben
    •  & Ronny Neumann

  • Article |

    Flat, prochiral molecules form chiral adsorbates on achiral surfaces, but such assemblies are globally racemic. Now, it is shown that this mirror symmetry can be broken through stereocontrolled on-surface synthesis. Enantiopure helicene molecules can be transformed into flat, enantiofacially adsorbed products through a cascade of reactions on Ag(111) monitored by high-resolution scanning probe microscopy.

    • Oleksandr Stetsovych
    • , Martin Švec
    •  & Ivo Starý

  • Article |

    Isolating nanoscale species in liquids permits their scalable manipulation, enabling numerous fundamental and applied processes. Thus, achieving true dissolution of 2D materials is particularly desirable. Now, ionic salts of a range of important layered materials have been shown to spontaneously dissolve, yielding solutions of charged, monodisperse, undamaged and easy-to-manipulate 2D nanosheets.

    • Patrick L. Cullen
    • , Kathleen M. Cox
    •  & Christopher A. Howard

  • Article |

    Biomolecular nanoscale compartments are ubiquitous in living systems. Although their formation is fairly straightforward, the same cannot be said of their inorganic counterparts. In this study, uniform nanoshells are observed self-assembling from stabilizer-free inorganic nanoparticles in water, under ambient conditions, and without the need for spherical tiling. This enables further study of inorganic prebiotic systems and compartmentalized biomimetic catalysis.

    • Ming Yang
    • , Henry Chan
    •  & Nicholas A. Kotov

  • News & Views |

    Charge transfer through DNA has been well studied over recent decades from both a biological and electronics perspective. It has now been shown that charge transfer can be accelerated one hundredfold by using highly energetic 'hot holes', revealing a new mechanism that could help to create useful electronic biomaterials.

    • D. N. Beratan
    •  & D. H. Waldeck

  • Article |

    Crystals grow from nuclei. In systems where nuclei are nanometre-sized and form quickly, it is difficult to determine the mechanism of their formation. Now, through in situ TEM, the demixing of a supersaturated aqueous gold solution into metastable gold-poor and gold-rich liquid phases is observed, the latter yielding stable clusters that become nuclei for nanocrystal growth.

    • N. Duane Loh
    • , Soumyo Sen
    •  & Utkur Mirsaidov

  • Article |

    STM investigations and first principles calculations provide an understanding of the microscopic mechanism behind the mobility of N-heterocyclic carbenes (NHCs) on gold surfaces. Now, it is shown that a ballbot-type motion allows the formation of self-assembled monolayers due to the NHC extracting a gold atom from the surface, leading to a ligated gold adatom.

    • Gaoqiang Wang
    • , Andreas Rühling
    •  & Harald Fuchs

  • Article |

    During the Fischer-Tropsch catalytic reaction, alkanes are synthesized from carbon monoxide and hydrogen at high pressure and temperature. Now it is shown using scanning tunnelling imaging of a cobalt surface during reaction that linear alkane product molecules of a specific length self-assemble on terraces, facilitating the desorption of new product molecules created at step sites.

    • Violeta Navarro
    • , Matthijs A. van Spronsen
    •  & Joost W. M. Frenken

  • Article |

    Lateral anchoring of heteromolecules to graphene paves the way for the creation of hybrid materials with tunable properties. Now, following a surface-assisted dehydrogenative coupling reaction, the edges of graphene on silver have been functionalized with porphines. This enables the assembly of well-defined multifunctional graphene-based nanostructures.

    • Yuanqin He
    • , Manuela Garnica
    •  & Johannes V. Barth

  • Article |

    Single-molecule junctions provide a unique platform to understand how molecular structure affects electronic transport. Now it has been shown that electronic transport through a π-stacked dimer can be precisely controlled when pulling it apart. This behaviour is caused by quantum interference effects that are turned ON or OFF depending on dimer conformation.

    • Riccardo Frisenda
    • , Vera A. E. C. Janssen
    •  & Nicolas Renaud

  • Article |

    Charge transfer in DNA is of fundamental interest in chemistry and biochemistry and has possible applications in nano-electronics. Now it has been shown, through a combined experimental and theoretical study, that the migration of positive charges through low-lying orbitals of nucleobases (deep-hole transfer) leads to charge transfer that is faster than previously considered transport regimes.

    • Nicolas Renaud
    • , Michelle A. Harris
    •  & Ferdinand C. Grozema

  • Article |

    Natural collagen contains triple helices that are approximately 1,000 residues in length and cannot be formed by chemical synthesis. Now, short collagen-mimetic peptides that self-assemble into three-stranded helices have been designed. These peptides are inspired by the mathematics of tessellations, and the triple helices formed via this approach match or exceed the length of those found in natural collagen.

    • I. Caglar Tanrikulu
    • , Audrey Forticaux
    •  & Ronald T. Raines

  • Article |

    Photoexcited holes in CdS nanocrystals rapidly trap to the surface and although they are integral to nanocrystal photophysics and photochemistry, their dynamics have remained elusive. Time-resolved spectroscopy and theoretical modelling have now revealed that trapped holes in CdS nanorods are mobile and undergo a random walk on the nanocrystal surface.

    • James K. Utterback
    • , Amanda N. Grennell
    •  & Gordana Dukovic

  • Article |

    Force-induced tautomerization in a single porphycene molecule is investigated on a Cu(110) surface at 5 K by using non-contact atomic force microscopy. The force needed to trigger the tautomerization process is quantified by force spectroscopy and theoretical calculations reveal the atomistic mechanism behind the reaction.

    • Janina N. Ladenthin
    • , Thomas Frederiksen
    •  & Takashi Kumagai

  • Article |

    The synthesis of topologically non-trivial compounds requires the manipulation of molecular recognition with an extraordinarily high level of control. Now, DNA four-way junctions have been configured to construct synthetic DNA knots and links, which can then be used to investigate important DNA-processing enzymes.

    • Di Liu
    • , Gang Chen
    •  & Yossi Weizmann

  • News & Views |

    The calcination of metal–organic framework (MOF) precursors is promising for the preparation of nanoscale carbon materials, but the resulting morphologies have remained limited. Now, controlling the growth of precursor MOFs has enabled 1D carbon nanorods to be fabricated — these can then be readily unravelled into 2D graphene nanoribbons.

    • Jing Tang
    •  & Yusuke Yamauchi

  • Article |

    The existence (or not) of electronic coherence in homopolymers is dependent on a balance between monomer–monomer interactions and environmental heterogeneity. Now, by understanding how even–odd orbital symmetry influences coherence and produces resistance oscillations as a function of distance—it is shown that DNA sequences can be designed to support coherent charge transport.

    • Chaoren Liu
    • , Limin Xiang
    •  & Nongjian Tao

  • Article |

    Dynamic nonlinear biochemical circuits are functionally rich; however, this nonlinear nature also makes programming them delicate and painstaking. Now a droplet microfluidic platform reveals precisely the bifurcations of two canonical systems: a bistable switch and a predator–prey oscillator, exposing optimal regions and mechanistic insights that inform the design of these systems.

    • A. J. Genot
    • , A. Baccouche
    •  & Y. Rondelez

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