Optical spectroscopy articles within Nature Communications

Featured

• Article
  17 April 2024 | Open Access

  Rapid room-temperature phosphorescence chiral recognition of natural amino acids

  Chiral recognition of amino acids with luminescence, despite its advantages, is usually slow and lacks generality. Here, the authors demonstrate that L-phenylalanine derived benzamide can manifest the structural difference between the natural, left-handed amino acid and its right-handed counterpart via the difference in room-temperature phosphorescence, irrespective of the specific chemical structure.

  • Xiaoyu Chen
  • , Renlong Zhu
  •  & Guoqing Zhang

• Article
  11 April 2024 | Open Access

  Spiral packing and chiral selectivity in model membranes probed by phase-resolved sum-frequency generation microscopy

  The properties of lipid membranes are intimately controlled by their complex heterogeneous structure. Here, the authors use phase-resolved sum-frequency generation microscopy to fully determine the hierarchical lipid packing from the molecular to the mesoscopic scale.

  • Alexander P. Fellows
  • , Ben John
  •  & Martin Thämer

• Article
  09 April 2024 | Open Access

  A 2D chiral microcavity based on apparent circular dichroism

  Here the authors induce asymmetric transmission in planar Fabry–Pérot microcavities by embedding organic thin films exhibiting apparent circular dichroism (ACD), an optical phenomenon based on 2D chirality.

  • Tzu-Ling Chen
  • , Andrew Salij
  •  & Randall H. Goldsmith

• Article
  08 April 2024 | Open Access

  Optics miniaturization strategy for demanding Raman spectroscopy applications

  Authors present a centimeter-scale miniaturized Raman spectrometer using cheap nonstabilized laser diodes, densely packed optics, and non-cooled small sensors while the performance is comparable with expensive bulky research-grade Raman systems.

  • Oleksii Ilchenko
  • , Yurii Pilhun
  •  & Anja Boisen

• Article
  22 March 2024 | Open Access

  Large exchange-driven intrinsic circular dichroism of a chiral 2D hybrid perovskite

  Li et al. report large circular dichroism in 2D chiral perovskite single crystals, arises from the inorganic sublattice, instead of chiral ligands, driven by electron-hole exchange interactions. This is evidenced by both reflective circular dichroism spectroscopy and ab initio theory.

  • Shunran Li
  • , Xian Xu
  •  & Peijun Guo

• Article
  22 March 2024 | Open Access

  Photoswitchable polyynes for multiplexed stimulated Raman scattering microscopy with reversible light control

  Bioimaging with photocontrol and multiplexing capability is vital for studying cellular interactions and dynamics, but multiplexed stimulated Raman scattering (SRS) imaging with reversible photocontrol is elusive. Here, the authors report SRS microscopy with Carbow-switch enabling multiplexed SRS imaging and tracking in live cells with reversible photocontrol and high spatiotemporal selectivity.

  • Yueli Yang
  • , Xueyang Bai
  •  & Fanghao Hu

• Article
  16 March 2024 | Open Access

  Assessing intra- and inter-molecular charge transfer excitations in non-fullerene acceptors using electroabsorption spectroscopy

  The performance of Y6-containing donor-acceptor active layers in organic solar cells is highly related to the charge-transfer nature in Y6 aggregates. Here, authors study charge-transfer characteristics of excitations of isolated and aggregated Y6 molecules through electroabsorption spectroscopy.

  • Sudhi Mahadevan
  • , Taili Liu
  •  & Sai-Wing Tsang

• Article
  14 March 2024 | Open Access

  Monolithic thin-film lithium niobate broadband spectrometer with one nanometre resolution

  A framework to break the inherent trade-off barrier between spectral resolution and operational bandwidth of integrated optical spectrometers is developed and demonstrated on thin-film lithium niobate without sacrificing the compact footprint.

  • Giovanni Finco
  • , Gaoyuan Li
  •  & Rachel Grange

• Article
  13 March 2024 | Open Access

  Time-of-flight detection of terahertz phonon-polariton

  Polaritons, light-matter hybridized quasiparticles, are the fundamental excitation of strong coupling systems and are widely applicable in information technologies. Here the authors applied the concept of time-of-flight measurement in terahertz induced second harmonic generation experiments in various systems to comprehensively study the dispersion relation of phonon-polaritons and reveal potential spin-lattice couplings.

  • Tianchuang Luo
  • , Batyr Ilyas
  •  & Nuh Gedik

• Article
  09 March 2024 | Open Access

  Molecular near-infrared triplet-triplet annihilation upconversion with eigen oxygen immunity

  Molecular triplet-triplet upconversion is useful in a wide range of applications, but is limited by significant oxygen quenching. Here the authors report the combination of sensitiser and annihilator that is stable in aerated environments, and suitable for in vivo sensing.

  • Xinyu Wang
  • , Fangwei Ding
  •  & Guanying Chen

• Article
  06 March 2024 | Open Access

  In situ electrochemical regeneration of nanogap hotspots for continuously reusable ultrathin SERS sensors

  SERS is a powerful analytical technique, but achieving reproducibility for continuous analysis a challenge. Here, the authors report a SERS substrate recycling method that enables direct analysis of complex samples without substrate contamination.

  • Sarah May Sibug-Torres
  • , David-Benjamin Grys
  •  & Jeremy J. Baumberg

• Article
  02 March 2024 | Open Access

  Extensive photochemical restructuring of molecule-metal surfaces under room light

  The nature of the molecule-metal interface is crucial for many technological applications. Here, the authors show that the photostability of the material can be sensitive to room light when coated with a single molecular layer, with implications for devices and processes.

  • Chenyang Guo
  • , Philip Benzie
  •  & Jeremy J. Baumberg

• Article
  29 February 2024 | Open Access

  Probing molecules in gas cells of subwavelength thickness with high frequency resolution

  Using gas cells for spectroscopic studies opens possibility for miniaturized platforms that can be integrated with other optical components. Here the authors demonstrate molecular rovibrational spectroscopy by confining molecules in a cell of subwavelength thickness.

  • Guadalupe Garcia Arellano
  • , Joao Carlos de Aquino Carvalho
  •  & Athanasios Laliotis

• Article
  27 February 2024 | Open Access

  Single-pixel p-graded-n junction spectrometers

  The miniaturization of spectrometers to a submillimeter-scale footprint opens opportunities for applications in hyperspectral imaging and lab-on-a-chip systems. Here, the authors report a high-performance single-pixel photodetector spectrometer based on the III-V semiconductor p-graded-n junction, featuring a voltage-tunable optical response.

  • Jingyi Wang
  • , Beibei Pan
  •  & Baile Chen

• Article
  27 February 2024 | Open Access

  Measuring sub-nanometer undulations at microsecond temporal resolution with metal- and graphene-induced energy transfer spectroscopy

  Studying the fluctuations of biological membranes with high resolution is challenging. Here, the authors combine metal- and graphene-induced energy transfer (MIET/GIET) with fluorescence correlation spectroscopy (FCS) to monitor such fluctuations with nanometer and microsecond resolution.

  • Tao Chen
  • , Narain Karedla
  •  & Jörg Enderlein

• Article
  24 February 2024 | Open Access

  Transient chemical and structural changes in graphene oxide during ripening

  Graphene oxide is in demand for various applications - however, this is complicated by changing physicochemical properties over time. Here, the authors show the intrinsic, metastable, and transient states of graphene oxide colloids upon ripening.

  • Hayato Otsuka
  • , Koki Urita
  •  & Katsumi Kaneko

• Article
  17 February 2024 | Open Access

  A compressive hyperspectral video imaging system using a single-pixel detector

  The authors showcase a video-rate hyperspectral imager based on a single-pixel photodetector that can achieve high-throughput hyperspectral video recording at a low bandwidth. Specifically, they propose a joint spatial-spectral encoding scheme which can encode the scene into highly compressed single-pixel measurements and obtain temporal correlation at the same time.

  • Yibo Xu
  • , Liyang Lu
  •  & Kevin F. Kelly

• Article
  14 February 2024 | Open Access

  Intrinsic dichroism in amorphous and crystalline solids with helical light

  Differential absorption of polarized light, called dichroism, does not exist in amorphous solids due to the disordered arrangements of atoms. Here, the authors demonstrate that dichroism is intrinsic to all solids and can be controlled using helical light beams carrying orbital angular momentum.

  • Ashish Jain
  • , Jean-Luc Bégin
  •  & Ravi Bhardwaj

• Article
  10 February 2024 | Open Access

  Unified picture of vibrational relaxation of OH stretch at the air/water interface

  Using femtosecond time-resolved heterodyne-detected vibrational sum-frequency generation spectroscopy the authors determine the vibrational relaxation (T₁) time of the O-H stretch at the air/water interface by observing the decay of excited-state OH signals, providing a comprehensive picture of the interfacial vibrational relaxation process of water.

  • Woongmo Sung
  • , Ken-ichi Inoue
  •  & Tahei Tahara

• Article
  07 February 2024 | Open Access

  Visualization-enhanced under-oil open microfluidic system for in situ characterization of multi-phase chemical reactions

  Under-oil open microfluidic systems have potential for studying multi-phase chemical reactions but have so far demonstrated largely only for biological applications. Here, the authors report the development of a system for in situ characterization of gas-liquid reactions by Raman spectroscopy.

  • Qiyuan Chen
  • , Hang Zhai
  •  & Bu Wang

• Article
  24 January 2024 | Open Access

  Ratiometric fluorescent sensing of pyrophosphate with sp³-functionalized single-walled carbon nanotubes

  Inorganic pyrophosphate is a key molecule in many biological processes. Here, the authors develop an optical sensor that enables its ratiometric detection in the near infrared with functionalized single-walled carbon nanotubes.

  • Simon Settele
  • , C. Alexander Schrage
  •  & Jana Zaumseil

• Article
  23 January 2024 | Open Access

  Folding pathway of a discontinuous two-domain protein

  Here, using single molecule FRET, the unfolding and folding of a discontinuous two-domain protein was studied. The authors find that a dynamic, intermediate population entropically limits the rate of folding while the order of domain folding is kept in a slow-folding mutant.

  • Ganesh Agam
  • , Anders Barth
  •  & Don C. Lamb

• Article
  17 January 2024 | Open Access

  Cochaperones convey the energy of ATP hydrolysis for directional action of Hsp90

  The precise role of cochaperones and ATP hydrolysis in driving Hsp90’s chaperone cycle is largely unclear. Here, the authors use single-molecule FRET to show that several cochaperones are necessary to establish directionality in Hsp90’s conformational cycle.

  • Leonie Vollmar
  • , Julia Schimpf
  •  & Thorsten Hugel

• Article
  10 January 2024 | Open Access

  Scalable integrated two-dimensional Fourier-transform spectrometry

  The authors propose and demonstrate a novel integrated spectrometer that measures any arbitrary spectrum with two-dimensional Fourier transform, breaking the scalability limit in chip-scale spectrometry.

  • Hongnan Xu
  • , Yue Qin
  •  & Hon Ki Tsang

• Article
  06 January 2024 | Open Access

  Theory predicts 2D chiral polaritons based on achiral Fabry–Pérot cavities using apparent circular dichroism

  2D chiral polaritons are light-matter states with select angular momentum holding technological promise. Here, the authors present the theory of such states, and propose their realisation based on a phenomenon called “apparent circular dichroism”.

  • Andrew H. Salij
  • , Randall H. Goldsmith
  •  & Roel Tempelaar

• Article
  02 January 2024 | Open Access

  Dual-wavelength metalens enables Epi-fluorescence detection from single molecules

  The requirement for sophisticated objective lenses hinders the miniaturisation of single molecule fluorescence spectroscopy for portable sensing applications. Here, the authors demonstrate a dual-wavelength metalens for real-time monitoring of individual fluorescent nanoparticles.

  • Aleksandr Barulin
  • , Yeseul Kim
  •  & Inki Kim

• Article
  02 January 2024 | Open Access

  Sub-Doppler optical-optical double-resonance spectroscopy using a cavity-enhanced frequency comb probe

  Probing molecules in excited vibrational states requires precise methods to extract the spectroscopic parameters. Here the authors demonstrate optical-optical double-resonance spectroscopy of excited-bands of methane using single pass high power continuous wave pump and cavity-enhanced frequency comb probe.

  • Vinicius Silva de Oliveira
  • , Isak Silander
  •  & Aleksandra Foltynowicz

• Comment
  12 December 2023 | Open Access

  Excitonic Complexes in Two-Dimensional Transition Metal Dichalcogenides

  The enhanced Coulomb interaction in two dimensions leads to not only tightly bound excitons but also many-particle excitonic complexes: excitons interacting with other quasiparticles, which results in improved and even new exciton properties with better controls. Here, we summarize studies of excitonic complexes in monolayer transition metal dichalcogenides and their moiré heterojunctions, envisioning how to utilize them for exploring quantum many-body physics.

  • Xiaotong Chen
  • , Zhen Lian
  •  & Su-Fei Shi

• Article
  12 December 2023 | Open Access

  Hot luminescence from single-molecule chromophores electrically and mechanically self-decoupled by tripodal scaffolds

  A fundamental challenge for molecular electronics is the change in photophysical properties of molecules upon direct electrical contact. Here, the authors observe hot luminescence emitted by single-molecule chromophores that are electrically and mechanically self-decoupled by a tripodal scaffold.

  • Vibhuti Rai
  • , Nico Balzer
  •  & Michal Valášek

• Article
  06 December 2023 | Open Access

  Mid-infrared supermirrors with finesse exceeding 400 000

  The researchers showcase all-crystalline and hybrid mid-infrared supermirrors with the lowest optical losses ever demonstrated in this wavelength range, representing an unprecedented improvement over any existing mirrors made with any production technology.

  • Gar-Wing Truong
  • , Lukas W. Perner
  •  & Garrett D. Cole

• Article
  04 December 2023 | Open Access

  Operando dynamics of trapped carriers in perovskite solar cells observed via infrared optical activation spectroscopy

  Conventional spectroscopic techniques are not sufficiently selective to follow the dynamics of trapped carriers in working perovskite solar cells. Here, authors use infrared optical activation spectroscopy to observe real time evolution of trapped carriers and compare the behaviour of trapped holes.

  • Jiaxin Pan
  • , Ziming Chen
  •  & Artem A. Bakulin

• Article
  02 December 2023 | Open Access

  Sharp zero-phonon lines of single organic molecules on a hexagonal boron-nitride surface

  Low-temperature spectroscopy of single fluorescent molecules can be of use to study dynamics in the nano-environment around them. Here, Smit et al. show that the fluorescence wavelength of molecules on the surface of hexagonal boron-nitride is particularly sensitive to how clean this surface is.

  • Robert Smit
  • , Arash Tebyani
  •  & Michel Orrit

• Article
  11 November 2023 | Open Access

  Dynamic construction of refractive index-dependent vibrations using surface plasmon-phonon polaritons

  Molecular vibrations serve as valuable signatures for the constituent elements and bonding in compounds. Here, using Surface-Enhanced Infrared Absorption spectroscopy, the authors study refractive index dependent vibrations of surface phonon polaritons and surface plasmon platform, targeting dynamic biomonitoring.

  • Hong Zhou
  • , Zhihao Ren
  •  & Chengkuo Lee

• Article
  10 November 2023 | Open Access

  Time-domain observation of interlayer exciton formation and thermalization in a MoSe₂/WSe₂ heterostructure

  Here, the authors use ultrafast transient absorption spectroscopy with a broadband white-light probe to simultaneously resolve interlayer charge transfer and interlayer exciton formation dynamics in a MoSe₂/WSe₂ heterostructure.

  • Veronica R. Policht
  • , Henry Mittenzwey
  •  & Stefano Dal Conte

• Article
  08 November 2023 | Open Access

  Accessible hotspots for single-protein SERS in DNA-origami assembled gold nanorod dimers with tip-to-tip alignment

  The identification of individual proteins is highly desirable in diagnostics. Here, the authors report on DNA-origami assembled dimers of gold nanorod with accessible hotspots to capture and identify single proteins from solution by SERS.

  • Francis Schuknecht
  • , Karol Kołątaj
  •  & Theobald Lohmueller

• Article
  02 November 2023 | Open Access

  Efficient optical plasmonic tweezer-controlled single-molecule SERS characterization of pH-dependent amylin species in aqueous milieus

  Studying rare species in mixtures is challenging. Here, authors utilize on-and-off optical plasmonic trapping to control SERS-active nanocavity to analyse pH-dependent amylin species at single-molecule level, unveiling amyloid aggregation mechanisms.

  • Wenhao Fu
  • , Huanyu Chi
  •  & Jinqing Huang

• Article
  04 October 2023 | Open Access

  Visualizing moiré ferroelectricity via plasmons and nano-photocurrent in graphene/twisted-WSe₂ structures

  Recent experiments have shown the formation of ferroelectric domains in twisted van der Waals bilayers. Here, the authors report near-field infrared nano-imaging and nano-photocurrent measurements to investigate ferroelectricity in minimally twisted WSe₂ by visualizing the plasmonic and photo-thermoelectric response of an adjacent graphene monolayer.

  • Shuai Zhang
  • , Yang Liu
  •  & D. N. Basov

• Article
  28 September 2023 | Open Access

  Biomolecular condensates modulate membrane lipid packing and hydration

  Nano-environmental probes and advance imaging microscopy provide deep insight into protein phase separation and the interaction of condensates with membranes, revealing that wetting by condensates can modulate membrane lipid packing and hydration.

  • Agustín Mangiarotti
  • , Macarena Siri
  •  & Rumiana Dimova

• Article
  22 September 2023 | Open Access

  Intrinsic 1\({T}^{{\prime} }\) phase induced in atomically thin 2H-MoTe₂ by a single terahertz pulse

  A single field-enhanced terahertz pulse was used to create 1\({T}^{{\prime} }\)-MoTe₂ out of few-layer H-MoTe₂ crystals, providing insights into the ultrafast polymorphic transition dynamics and resolving a long-standing debate over the realization of this transition by high-energy photon irradiation.

  • Jiaojian Shi
  • , Ya-Qing Bie
  •  & Keith A. Nelson

• Article
  29 August 2023 | Open Access

  Drug classification with a spectral barcode obtained with a smartphone Raman spectrometer

  Smartphones are ubiquitous devices that have permeated into our daily life. Here, the authors demonstrate that a Smartphone Raman spectrometer can be used for drug classification by using a convolutional neural network to process its spectral barcode.

  • Un Jeong Kim
  • , Suyeon Lee
  •  & Hyuck Choo

• Article
  19 August 2023 | Open Access

  Exciton Superposition across Moiré States in a Semiconducting Moiré Superlattice

  The moiré lattice of trilayer WSe₂ and monolayer WS₂ host interlayer excitons localized at different moiré sites. Using an electric field, the authors tune the superposition between two moiré sites via hybridization with intralayer excitons in WSe₂.

  • Zhen Lian
  • , Dongxue Chen
  •  & Su-Fei Shi

• Article
  18 August 2023 | Open Access

  Engineered NIR-II fluorophores with ultralong-distance molecular packing for high-contrast deep lesion identification

  To achieve high-contrast in fluorescence imaging of deep tissues is challenging. Here, the authors develop NIR-II fluorescent small molecules with high brightness and emission extending to 1900 nm, enabling in vivo imaging of deep tissues with enhanced signal-to-background ratios.

  • Zhe Feng
  • , Yuanyuan Li
  •  & Jun Qian

• Article
  18 August 2023 | Open Access

  Dual-comb optomechanical spectroscopy

  Spectroscopic gas sensing with high sensitivity and selectivity finds an increasing number of applications. Here, the authors report an approach to ultrasensitive multiplexed gas sensing by integrating dual-comb spectroscopy with cavity optomechanics.

  • Xinyi Ren
  • , Jin Pan
  •  & Heping Zeng

• Article
  17 August 2023 | Open Access

  Multicolor lifetime imaging and its application to HIV-1 uptake

  Multicolor imaging employing genetically-encodable fluorescent proteins permits spatiotemporal live cell imaging of multiple cues. Here, authors use multicolor lifetime imaging to visualize quadruple-labelled human immunodeficiency viruses within cellular contexts.

  • Tobias Starling
  • , Irene Carlon-Andres
  •  & Sergi Padilla-Parra

• Article
  12 August 2023 | Open Access

  A lab-based test of the gravitational redshift with a miniature clock network

  Testing general relativity with optical clocks is important both as a fundamental test and for metrological applications. Here, a vertical linear array of 5 separate ensembles of strontium atoms trapped in a single optical lattice is used to perform a blinded lab-based test of the gravitational redshift at the mm to cm scale.

  • Xin Zheng
  • , Jonathan Dolde
  •  & Shimon Kolkowitz

• Article
  09 August 2023 | Open Access

  Over-coupled resonator for broadband surface enhanced infrared absorption (SEIRA)

  Nanoresonator is proven to be an excellent platform for molecular detection, yet a set of them is necessary to identify a molecule fingerprint. Here, the authors utilise low quality resonators with large radiative losses, despite its lower quality factor, to identify molecular absorption spectrum between 5 and 10 μm.

  • Laura Paggi
  • , Alice Fabas
  •  & Patrick Bouchon

• Article
  01 August 2023 | Open Access

  Quadrupolar excitons and hybridized interlayer Mott insulator in a trilayer moiré superlattice

  The authors observe the signatures of quadrupolar excitons in a WSe₂-WS₂-WSe₂ trilayer moiré superlattice, originating from the hybridization of the WSe₂ valence moiré flatbands. They further use electrostatic gating to reveal a hybridized interlayer Mott insulator state, with holes shared between the two WSe₂ layers but laterally confined in moiré superlattices.

  • Zhen Lian
  • , Dongxue Chen
  •  & Su-Fei Shi

• Article
  24 July 2023 | Open Access

  μeV electron spectromicroscopy using free-space light

  The authors present μeV electron spectromicroscopy, a technique that combines free-space light and electron beams to achieve unmatched spatial and spectral resolution. This approach enables detailed investigation of photonic structures, promising advancements in microscopy and quantum optics.

  • Yves Auad
  • , Eduardo J. C. Dias
  •  & Mathieu Kociak

• Article
  11 July 2023 | Open Access

  Probing hyperbolic and surface phonon-polaritons in 2D materials using Raman spectroscopy

  Hyperbolic phonon polaritons (HPhPs) in anisotropic van der Waals materials hold promise for nanophotonic applications, but their far-field characterization remains challenging. Here, the authors demonstrate the application of Raman spectroscopy in a backscattering configuration to determine the dispersion of HPhPs in thin GaSe crystals.

  • Alaric Bergeron
  • , Clément Gradziel
  •  & Sébastien Francoeur

• Article
  04 July 2023 | Open Access

  High-speed scanless entire bandwidth mid-infrared chemical imaging

  The authors present a fast mid-infrared hyperspectral chemical imaging technique that uses chirped pulse upconversion of sub-cycle pulses at the image plane, with lateral resolution of 15 µm and an adjustable field of view and large spectral range. They demonstrate identification and mapping different components in a microfluidic device, plant cell, and mouse embryo.

  • Yue Zhao
  • , Shota Kusama
  •  & Takao Fuji