High-resolution spectroscopy by Brogi, M, Birkby, J

“…High-resolution spectroscopy (HRS) allows resolving the spectrum of an exoplanetary atmosphere into individual lines and using the Doppler shift of the planet spectrum to disentangle it from other sources, such as telluric contamination and the host star spectrum. …”

Imaging Secondary Ion Mass Spectroscopy by Moore, K, Schröder, M, Grovenor, C

The Study of Adsorption on Metal Oxides by High-Resolution Electron-Energy-Loss Spectroscopy by Egdell, R

“…The application of high-resolution electron-energy-loss spectroscopy to the study of adsorbates on the surfaces of single-crystal metal oxides is reviewed. …”

Quantitative study of protein-protein interactions in live cell by dual-color fluorescence correlation spectroscopy. by Padilla-Parra, S, Audugé, N, Coppey-Moisan, M, Tramier, M

“…We have shown that problems with cross talk are overcome with Fluorescence Lifetime Correlation Spectroscopy (FLCS). FLCS applied to dual-color cross-correlation, utilizing for example eGFP and mCherry fluorescent proteins, allows the determination of protein-protein interactions in living cells without the need of spectral bleed-through calibration. …”

Tuning the properties of nitroxide spin labels for use in electron paramagnetic resonance spectroscopy through chemical modification of the nitroxide framework by Haugland, M, Anderson, E, Lovett, J

“… <p style="text-align:justify;">Spin labels containing nitroxyl radicals possess many properties that render them useful for electron paramagnetic resonance (EPR) spectroscopy. This review describes the relationships between the structure and properties of nitroxide spin labels, methods for their synthesis, advances in methods for their incorporation into biomolecules, and selected examples of applications in biomolecule structural investigations. …”

Copper-organic complexes synthetized electrochemically by Carvalho, LDC

“…They were characterised by a multi-analytical protocol comprised of Fourier Transform infrared, Raman spectroscopy, X-ray diffraction, X-ray photoelectron spectroscopy, and mass spectrometry.…”

NMR studies of a timekeeping system by Vakonakis, I, LiWang, A

“…We present here an overview of progress made using traditional high-resolution nuclear magnetic resonance (NMR) spectroscopy on the structures of these proteins in solution. …”

Structure and bonding in endohedral transition metal clusters by Jin, X, McGrady, J

“…The clusters of interest are drawn from the field of Zintl-ion chemistry, typically containing the heavier tetrels, and also from the gas-phase spectroscopy of metal-silicon clusters. By highlighting the close relationships between the molecules studied in these two rather different disciplines, we establish a continuum framework that places all of the available experimental data in context.…”

Other Significant Metabolites. Myo-Inositol, GABA, Glutamine, and Lactate. by Best, J, Stagg, C, Dennis, A

“…Advances in acquisition parameters have meant that an increased number of metabolites are readily quantified using magnetic resonance spectroscopy. Here we discuss the most commonly acquired of these: myo-inositol, γ-aminobutyric acid (GABA), glutamine, and lactate. …”

STM and STS of oxide ultrathin films by Castell, M

“…These atomic structure studies can be complemented by scanning tunneling spectroscopy (STS), which provides local electronic structure information within a few eV around the Fermi energy.…”

Assignment of protein NMR spectra using heteronuclear NMR: a tutorial by Redfield, C

“…Two approaches to the assignment are commonly used: the triple resonance methodology, which uses a suite of three-dimensional (3D) 13C/15N/1H NMR experiments, relies on through-bond 1J and 2J intra- and interresidue spin–spin couplings that are observed in 13C–15N double-labelled proteins; and the sequential assignment methodology, which can be applied to unlabelled or 15N single-labelled proteins, relies on through-bond total correlation spectroscopy (TOCSY) data to identify spin systems and through-space nuclear Overhauser effect (NOE) data to establish connections between neighbouring amino acid residues. …”

Chronos: a NIR spectroscopic galaxy survey. From the formation of Galaxies to the peak of activity by Ferreras, I, Sharples, R, Dunlop, J, Pasquali, A, Barbera, F, Vazdekis, A, Khochfar, S, Cropper, M, Cimatti, A, Cirasuolo, M, Bower, R, Brinchmann, J, Burningham, B, Cappellari, M, Charlot, S, Conselice, C, Daddi, E, Grebel, E, Ivison, R, Jarvis, M, Kawata, D, Kennicutt, R, Kitching, T, Lahav, O, Maiolino, R, Page, M, Peletier, R, Pontzen, A, Silk, J, Springel, V, Sullivan, M, Trujillo, I, Wright, G

“…To provide these data, the mission requires a 2.5m space telescope optimised for a campaign of very deep NIR spectroscopy. A combination of a high multiplex and very long integration times will result in the deepest, largest, high-quality spectroscopic dataset of galaxies from z=1 to 12, spanning the history of the Universe, from 400 million to 6 billion years after the big bang, i.e. covering the most active half of cosmic history. …”

Spectroscopic direct detection of exoplanets by Birkby, J

“…This chapter focuses on high-resolution spectroscopy (HRS) (R = 25, 000–100, 000), which helps to disentangle and isolate the exoplanet’s spectrum. …”