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The self-assembly of planar molecules at interfaces can produce porous nanostructured surfaces that allow the selective trapping of guest molecules. By careful choice of both network and guest molecule it is possible to promote controlled, reversible growth perpendicular to the surface in the form of a molecular bilayer.

Loading guests inside the pre-existing pores of nanoporous hosts remains challenging. Here, the authors introduce a rational route for incorporation of guest compounds into an arbitrary nanoporous host, enabling the investigation of multiple host-guest systems with surprising functionalities.

Single crystal X-ray diffraction is an invaluable tool for molecular structure determination, but growing single crystals is often an arduous process. Here the authors find that the structures of a wide array of molecules can be determined by SCXRD when included in hydrogen-bonded guanidinium organosulfonate host frameworks in a single-step crystallization.

Although protein-ligand pairs are useful tools for bioimaging, they are susceptible to enzymatic degradation and interference from endogenous species. Here, the authors show that a synthetic and bioorthogonal cucurbit[7]uril-guest binding pair can be used to visualize proteins in cells, overcoming limitations of protein-based platforms.

Porous materials are technologically important for a wide range of applications, such as catalysis and separation. Covalently bonded organic cages can now be assembled into crystalline microporous materials, and their porosity is found to be intrinsic to their molecular cage structure.

ortho-Aminomethylphenylboronic acids are routinely used in sensors for carbohydrates, but the function of the o-aminomethyl group in enhancing binding affinity and modulating the emission of appended fluorophores has been the matter of some debate. This Review presents a unified picture of the structural features, mechanisms of sugar complexation and photophysics of these kinds of sensors.

Mixtures of peptides and nucleic acids tend to demix and form coacervate droplets. Here, the authors show that even short peptides and oligonucleotides form droplets. DNA and RNA impart different properties to these protocells – stability, fluidity and the potential to host RNA chemistry.

Assembling random networks on a surface is an intriguing — and potentially useful — phenomenon, but partial order is difficult to control. Researchers have now altered two-dimensional tetracarboxylic acid networks through only small chemical changes. This phase behaviour reveals that entropy, alongside energy, plays a crucial role in the order–disorder balance.

Interlocked molecules commonly include one (or more) monocyclic component — examples comprising bicyclic or tricyclic structures are much more rare and usually involve metal–ligand coordination or additional templates. Now, the dynamic self-assembly of twenty organic molecules in a one-pot synthesis has been shown to produce tetrahedral covalent cages, which interpenetrate during the process to form triply interlocked dimers.

Hydrogels with room temperature phosphorescence have potential in a number of applications, but mechanical properties can limit the potential. Here, the authors report a wood-based hydrogel with room temperature phosphorescence, by polymerization of acrylamide with delignified wood.

Protein motion in crowded environments governs cellular transport and reaction rates. Here, the authors use megahertz X-ray Photon Correlation Spectroscopy to reveal anomalous diffusion of ferritin, linking hydrodynamic and direct interactions to cage-trapping at microsecond time scales.

The construction of porous solids from discrete organic molecules usually involves the formation of regular porous crystals. In this study, a covalent scrambling reaction gives molecules with a range of shapes that do not pack effectively — manipulation of the reagent ratio allows fine control of porosity.

Organic molecular crystals with guest-occupied cavities are often observed, but the cavities tend to collapse when the guests are removed. Now, the porous domain of a crystalline solvate has been stabilized by formation of a cocrystal with a second molecule whose size and shape matches those of the unstable voids.

Charge transfer is facilitated in molecular systems through orbital coupling. Here the authors use core-hole-clock spectroscopy to show that electron transfer from an argon atom caged in a fullerene can be up to two orders of magnitude faster than for the isolated atom.

Lindlar catalysts are widely used for partial hydrogenation of alkynes, however they can be somewhat limited by toxicity of lead and low selectivity. Here, the authors report that the modification of palladium nanoparticles with boron atoms in the interstitial sites yields selective hydrogenation catalysts.

Spatially resolved JWST spectroscopy of a massive, quiescent galaxy at a redshift of ~4 reveals that it formed its stars and quenched rapidly, despite being surrounded by an abundant gas reservoir and gravitationally bound to a star-bursting companion.

Methane emission from a very cool brown dwarf, perhaps arising from an aurora, has been detected in James Webb Space Telescope observations.

Porous materials find use in applications such as gas separation, drug delivery and energy storage, but have hitherto been solid rather than liquid; now a combination of cage molecules and a crown-ether solvent that cannot enter the cage molecules is used to create a porous liquid that can solubilize methane gas better than non-porous liquids.

Jayavelu, Samaha et al., apply machine learning models on hospital admission data, including antibody titers and viral load, to identify patients at high risk for Long COVID. Low antibody levels, high viral loads, chronic diseases, and female sex are key predictors, supporting early, targeted interventions.

A purpose-built implantable system based on biomimetic epidural electrical stimulation of the spinal cord reduces the severity of hypotensive complications in people with spinal cord injury and improves quality of life.

Chronic infection with SARS-CoV-2 leads to the emergence of viral variants that show reduced susceptibility to neutralizing antibodies in an immunosuppressed individual treated with convalescent plasma.

Sera from vaccinated individuals and some monoclonal antibodies show a modest reduction in neutralizing activity against the B.1.1.7 variant of SARS-CoV-2; but the E484K substitution leads to a considerable loss of neutralizing activity.

The strategy of modular construction makes it possible to create ordered materials with structures that are controlled at the molecular level. In this perspective article, the author shows how the approach has yielded a new generation of materials with extraordinary properties of porosity.

The warm Earth-sized planet LHS 475 b is validated and characterized with two transits observed by the JWST. The absence of evident spectroscopic features excludes a substantial hydrogen envelope and indicates that LHS 475 b has either little or no atmosphere or an optically thick cloud deck at high altitudes.

There has been recent progress in the synthesis of complex intertwined supramolecular topologies. In this study, Liet al.report the self-assembly of an intertwined structure based on a universal 3-ravel.

This study introduces a genomic typing system for Moraxella catarrhalis, revealing two major lineages with distinct evolution, variability, and virulence traits.

Acyclic cucurbituril-type molecular containers have been found to increase the solubility of insoluble pharmaceutical agents in water by up to 2,750-fold. In vitro and in vivo toxicology studies suggest that the containers are well tolerated, and paclitaxel solubilized in this manner efficiently kills HeLa and SK-OV-3 cancer cells.

Within microbial communities, microorganisms adopt different lifestyle strategies to use the available resources. Here, the authors use an integrated ‘multi-omic’ approach to study niche breadth (generalist versus specialist lifestyles) in oleaginous microbial assemblages from an anoxic wastewater treatment tank.

Metal-organic frameworks (MOFs) have potential catalysis, filtration and sensing applications, but device fabrication will require controlled MOF growth. Here, α-hopeite microparticles are used to achieve spatial control of MOF nucleation, and accelerate MOF growth.

A study of the evolution of the SARS-CoV-2 virus in England between September 2020 and June 2021 finds that interventions capable of containing previous variants were insufficient to stop the more transmissible Alpha and Delta variants.

Surveys from 2,584 sites across the Indo-Pacific identify key climate, socioeconomic and environmental drivers associated with hard coral assemblages. This informs a strategic approach to protect, recover or transform coral reef management.

Organising proteins in 2D and 3D is needed to develop complex bimolecular materials for a range of applications. Here, the authors report the encapsulation of ferritin and apoferritin in DNA-based voxels with programmed assembly to generate both 2D and 3D protein lattices and demonstrate the retention of protein function.