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Active galactic nuclei are surrounded by a dusty and molecular disk that fuels supermassive black holes and connects them to their host galaxies. Here, the authors show with JWST interferometric observations that most of the dust in the Circinus galaxies lies in a compact disk, while only a tiny fraction traces hot outflowing material.

Tunable quantum cascade lasers can enable applications in multiple areas. Here, the authors demonstrate the adaptive control of the modes and emission spectra of quantum cascade random lasers through a spatially-tailored optical modulation of the active region.

Real-time identification of thyroid and parathyroid glands simultaneously and separately using near-infrared fluorophores in rat and pig models.

The short-wavelength infrared spectral region is of interest for bio-imaging applications as biological tissue is transparent to such light. Here Naczynski et al. fabricate rare-earth-based nanomaterials and demonstrate multispectral, real-time short-wavelength infrared in-vivoimaging.

Real time cellular fluorescence imaging requires a probe that displays high degrees of localisation, low toxicity and good photostability. Here, the authors report a near infrared fluorophore that displays pH-sensitive fluorescence based on phenol/phenolate interconversion, showing real time imaging of cellular processes.

A transparent, 10-nm-thick gold film working at the percolation threshold provides superior antifogging capabilities.

Photolabeling of intracellular molecules is an invaluable approach to study multiple cellular processes. Here, the authors report on the near-infrared to far-red photoconversion in the miRFP family of fluorescent proteins, which enables photolabeling entirely performed in the near-infrared range.

The authors introduce and demonstrate cross-comb spectroscopy in the mid-infrared as a variant of dual-comb spectroscopy. It provides enhanced performance and allows mid-infrared spectral information to be obtained by near-infrared detection.

Autonomous assembly, reconfiguration and disassembly are observed in living aggregates, but are difficult to replicate in synthetic soft matter. Here mechanically interlocked responsive ribbons form transient viscoelastic solids for the on-demand assembly of functional materials.

Iatrogenic injury of the ureters is a feared complication of laparoscopic abdominal surgery. Here the authors present the NIR fluorophore ZW800-1 as an intraoperative imaging agent for ureter mapping, showing its safety, pharmacokinetic properties, and efficacy in healthy volunteers and patients undergoing abdominopelvic surgery.

The transmembrane P-glycoprotein (P-gp) pumps are known to promote drug resistance by enhancing drug efflux. Here, the authors deliver P-gp inhibitor and a chemotherapeutic agent using tumor blood vessel-targeting nanoparticle, to overcome drug resistance.

By forcing electron–hole pairs onto closed trajectories attosecond clocking of delocalized Bloch electrons is achieved, enabling greater understanding of unexpected phase transitions and quantum-dynamic phenomena.

Researchers demonstrate all-optical wavelength conversion based on a resonant nonlinear process within a terahertz quantum cascade laser. The wavelength of the pump beam (812 nm) corresponds to the interband transitions of the laser. The researchers measured a power-conversion efficiency of 0.13% in the range of 812–818 nm, which is the highest value obtained for such a device.

Strong near-infrared spectral features from asymptotic giant branch stars are detected by JWST in the integrated light from distant quiescent galaxies, clarifying their contribution to galaxy spectra and population synthesis models.

Instabilities in chiral plasmas can amplify electromagnetic waves, raising the question of whether chiral solids behave similarly. Now a magneto-chiral instability is demonstrated in tellurium, observed as growing terahertz emission after photoexcitation.

Insects have been shown to have the ability to detect different chemical agents. Here, the authors present a nanomaterial-assisted neuromodulation strategy to augment the chemosensory abilities of insects via photothermal effect and on-demand neurotransmitter release from cargo-loaded nanovehicles to augment natural sensory function.

A summary of recent advances in the near-infrared light-emitting diodes that are fabricated by solution-processed means, with coverage of devices based on organic semiconductors, halide perovskites and colloidal quantum dots.

The non-invasive detection and imaging of bacterial infection in living organisms is increasingly important. Here, the authors demonstrate the use of labelled carbon nanotubes as bacterial probes in living hosts, and are able to image deep tissue infections with higher signal amplification than dye imaging.

The influence of insulin on food preference and the corresponding underlying neural circuits are unknown in humans. Here, the authors show that increasing insulin changes food preference by modulating mesolimbic neural circuits, and that this pattern is changed in insulin-resistant individuals.

Reducing or stopping immunosuppression in recipients of allografts has the potential to spare them from increased risk of infection, malignancy and cardiovascular events. Here, the authors report the results of a phase-I clinical trial evaluating the use of donor-derived dendritic cells as means to achieve operational tolerance in living-donor liver transplantation.

A possible kilonova associated with a nearby, long-duration gamma-ray burst suggests that gamma-ray bursts with long and complex light curves can be spawned from the merger of two compact objects, contrary to the established gamma-ray burst paradigm.

Absorption lineshape of H₂ is coherently controlled by using intense near-infrared laser pulses. Depending on the time delay between the near-infrared and extreme ultraviolet pulses, the profiles display a Lorentzian or an asymmetric Fano lineshape.

The ionisation fraction of protostellar jets is key to establish their true energetics. Here, the authors determine it in a jet from a high-mass young stellar object, using multi-wavelengths observations, confirming that the ionising mechanism giving rise to the radio emission originates from shocks.

Label-free imaging of the endogenous pigment lipofuscin at near-infrared and shortwave-infrared wavelengths enables the longitudinal monitoring of liver injury in mice and in biopsied human livers.

In contrast to photothermal therapy requiring high powers over extended times and photodynamic therapy being abrogated by inhibitors of reactive oxygen species, actuation of vibronic modes in single molecules—molecular jackhammers—can now induce efficient cancer cell death. Here, the mechanical disassembly of cell membranes is characterized as the underlying mechanism by which this vibronic-driven action promotes necrotic cell death.

Hot hole transfer has applications in plasmonics, photocatalysis, and light harvesting, but is often limited by low quantum yields and short-lived charge separation times. Here, Lian et al. overcome these limitations in heterostructured nanocrystals and proposed a new hot hole transfer mechanism.

By day 1,041 after explosion, SN Ia-CSM 2018evt had produced an estimated 0.01 solar masses of dust in the cold, dense shell behind the supernova ejecta–circumstellar medium interaction, ranking it as one of the most prolific dust-producing supernovae ever recorded.

Molecular glue degraders have consistently been discovered retrospectively, despite their increasing importance. Herein, a high-throughput approach is described that modifies existing ligands into molecular glue degraders.

A series of spontaneously blinking dyes in the far-red range facilitate single-molecule localization microscopy. These dyes vary in their blinking properties and can be matched to the applications and microscopy modalities as needed.

Vegetation dynamics can be tracked using remotely sensed vegetation indices, but these metrics can result in conflicting conclusions. This Technical Review details the history, application and potential pitfalls associated with vegetation indices and makes recommendations for their best use.

Two-photon Rabi oscillations are observed in He on a timescale of 10 fs by utilizing the strong-field phenomenon known as Freeman resonance. The importance of ponderomotive shifts of both the Rydberg states and the ionization limit is highlighted.

Combining attosecond metrology and soliton dynamics in hollow-core fibres, the generation of attosecond laser pulses from the deep-ultraviolet to the near-infrared regime and the measurement of attosecond solitons with 350-as durations at optical wavelengths are demonstrated, providing an efficient route to generate intense isolated attosecond pulses complementary to those based on high-harmonic generation in gases.

Excited-state molecular dynamics may be too complex to be resolved by femtosecond spectroscopic studies. Here the authors resolve the competing pathways in the excited state dynamics of methyl bromide by attosecond transient absorption spectroscopy, from excitation to fragmentation.

Mechanical response of semiconducting polymers affects their electrical properties, yet the detail remains elusive. Zhong et al. examine the multiscale structural evolution of conjugated polymer thin films during uniaxial deformation and link it to mechanical resilience and solar cell performance.

Two-photon absorption (TPA) affords unparalleled spatiotemporal resolution for bioimaging, but the photo-oxidation tends to weaken the photoluminescence in vivo, limiting the usefulness of TPA probes. Here, the authors report self-assembling near-infrared cyanine dye-based nanoprobes of enhanced TPA fluorescence imaging capacity based on a photo-oxidation enhanced emission mechanism.

The antiferromagnetic-to-paramagnetic phase transition in a two-dimensional semiconducting magnet, CrSBr, induces an exciton confinement transition from a strongly bound quasi-one-dimensional state to a weakly bound interlayer-delocalized state.

Photoredox transformations are achieved with infrared light by using triplet fusion upconversion that converts infrared into visible light, enabling the use of photoredox chemistry on larger scales and through barriers that are impenetrable by visible light.

Renally clearable gold quantum clusters that are stabilized by the milk metalloprotein alpha-lactalbumin and display multicolour fluorescence aid the detection, resection and treatment of breast cancer in mice.

JWST observations of GRB 221009A reveal the associated supernova, confirming that the GRB resulted from the collapse of a rapidly rotating massive star. The lack of r-process emission suggests that these extreme events are not key sources of the heaviest elements.

Photoemission from nanometre-scale structures offer a route toward ultrafast light-field-driven electronic nanocircuits. Here, the authors use attosecond streaking spectroscopy for nanoscale characterization of near-fields in the vicinity of tapered gold nanowires.

Optogenetic approaches to control protein-protein interactions usually require overexpression of the target proteins. Here the authors integrate intrabodies into near-infrared- and blue-light activatable optogenetic tools to control endogenous proteins in mammalian cells.