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Vibration /vibrations spectroscopy

M. L. Hair, Vibrational Spectroscopies for Adsorbed Species, ACS Symposium Series No. 137, A. T. Bell and M. L. Hair, eds., American Chemical Society, Washington, DC, 1980. [Pg.326]

Vibrational Spectroscopy. Infrared absorption spectra may be obtained using convention IR or FTIR instrumentation the catalyst may be present as a compressed disk, allowing transmission spectroscopy. If the surface area is high, there can be enough chemisorbed species for their spectra to be recorded. This approach is widely used to follow actual catalyzed reactions see, for example. Refs. 26 (metal oxide catalysts) and 27 (zeolitic catalysts). Diffuse reflectance infrared reflection spectroscopy (DRIFT S) may be used on films [e.g.. Ref. 28—Si02 films on Mo(llO)]. Laser Raman spectroscopy (e.g.. Refs. 29, 30) and infrared emission spectroscopy may give greater detail [31]. [Pg.689]

STM has also been adapted for perfonning single-atom vibrational spectroscopy [73],... [Pg.311]

Stipe B C, Rezaei M A and Flo W 1998 Single-molecule vibrational spectroscopy and microscopy Science 280 1732... [Pg.319]

Raduge C, Pfiumio V and Shen Y R 1997 Surface vibrational spectroscopy of sulfuric acid-water mixtures at the liquid-vapor interface Chem. Phys. Lett. 274 140... [Pg.320]

Shen Y R 1998 Sum frequency generation for vibrational spectroscopy applications to water interfaces and films of water and ice Solid State Commun. 108 399... [Pg.320]

The secondary hydration sheath has also been studied using vibrational spectroscopy. In the presence of... [Pg.568]

Miller R E 1988 The vibrational spectroscopy and dynamics of weakly bound neutral complexes Scianca 240 447-53... [Pg.1042]

Boyarkin O V and Rizzo T R 1996 Secondary time scales of intramolecular vibrational energy redistribution in CFgH studied by vibrational overtone spectroscopy J. Chem. Phys. 105 6285-92... [Pg.1089]

Vibrational spectroscopy provides detailed infonnation on both structure and dynamics of molecular species. Infrared (IR) and Raman spectroscopy are the most connnonly used methods, and will be covered in detail in this chapter. There exist other methods to obtain vibrational spectra, but those are somewhat more specialized and used less often. They are discussed in other chapters, and include inelastic neutron scattering (INS), helium atom scattering, electron energy loss spectroscopy (EELS), photoelectron spectroscopy, among others. [Pg.1149]

Vibrational spectroscopy is an enomiously large subject area spamiing many scientific disciplines. The methodology, both experimental and theoretical, was developed primarily by physical chemists and has branched far and wide over the last 50 years. This chapter will mainly focus on its importance with regard to physical chemistry. [Pg.1150]

Within physical chemistry, the long-lasting interest in IR spectroscopy lies in structural and dynamical characterization. Fligh resolution vibration-rotation spectroscopy in the gas phase reveals bond lengths, bond angles, molecular symmetry and force constants. Time-resolved IR spectroscopy characterizes reaction kinetics, vibrational lifetimes and relaxation processes. [Pg.1150]

Raman scattering has been discussed by many authors. As in the case of IR vibrational spectroscopy, the interaction is between the electromagnetic field and a dipole moment, however in this case the dipole moment is induced by the field itself The induced dipole is pj j = a E, where a is the polarizability. It can be expressed in a Taylor series expansion in coordinate isplacement... [Pg.1158]

There are thousands of scientists whose work can be classified as vibrational spectroscopy. The following examples are meant to show the breadth of the field, but cannot be expected to constitute a complete representation of all the fields where vibrational spectroscopy is important. [Pg.1168]

The temi action spectroscopy refers to those teclmiques that do not directly measure die absorption, but rather the consequence of photoabsorption. That is, there is some measurable change associated with the absorption process. There are several well known examples, such as photoionization spectroscopy [47], multi-photon ionization spectroscopy [48], photoacoustic spectroscopy [49], photoelectron spectroscopy [, 51], vibrational predissociation spectroscopy [ ] and optothemial spectroscopy [53, M]. These teclmiques have all been applied to vibrational spectroscopy, but only the last one will be discussed here. [Pg.1173]

Vibrational spectroscopy has been, and will continue to be, one of the most important teclmiques in physical chemistry. In fact, the vibrational absorption of a single acetylene molecule on a Cu(lOO) surface was recently reported [ ]. Its endurance is due to the fact that it provides detailed infonnation on structure, dynamics and enviromnent. It is employed in a wide variety of circumstances, from routine analytical applications, to identifying novel (often transient) species, to providing some of the most important data for advancing the understanding of intramolecular and intemiolecular interactions. [Pg.1175]

Mathies R A 1995 Biomolecular vibrational spectroscopy Biochemical Spectroscopy Methods Enzymol. vol 246, ed K Sauer (San Diego, CA Academic) pp 377-89... [Pg.1175]

Ayotte P, Bailey C G, Weddle G FI and Johnson M A 1998 Vibrational spectroscopy of small Br (Fl20) and I Fl20) clusters infrared characterization of the ionic hydrogen bond J. Phys. Chem. A 102 3067-71... [Pg.1177]

Comprehensive treatment of vibrational spectroscopy, including data for a wide variety of molecules. [Pg.1177]

The sections on vibrations and spectroscopy are somewhat more accessible mathematically than the previous three books. [Pg.1177]

The general task is to trace the evolution of the third order polarization of the material created by each of the above 12 Raman field operators. For brevity, we choose to select only the subset of eight that is based on two colours only—a situation that is connnon to almost all of the Raman spectroscopies. Tliree-coloiir Raman studies are rather rare, but are most interesting, as demonstrated at both third and fifth order by the work in Wright s laboratory [21, 22, 23 and 24]- That work anticipates variations that include infrared resonances and the birth of doubly resonant vibrational spectroscopy (DOVE) and its two-dimensional Fourier transfomi representations analogous to 2D NMR [25]. [Pg.1186]

Wright J C, Labuda M J, Zilian A, Chen P C and Hamilton J P 1997 New selective nonlinear vibrational spectroscopies J. Luminesc. 72-74 799-801... [Pg.1225]

Labuda M J and Wright J C 1997 Measurement of vibrationally resonant and the feasibility of new vibrational spectroscopies Phys. Rev. Lett. 79 2446-9... [Pg.1225]

Khidekel V and Mukamel S 1995 High-order echoes in vibrational spectroscopy of liquids Chem. Phys. Lett. 240 304-14... [Pg.1231]

We now present one of the many examples of interfacial vibrational spectroscopy using SFG. Figure Bl.5.15 shows the surface vibrational spectrum of the water/air interface at a temperature of 40 °C [83]. Notice that... [Pg.1295]

Dumas P, Weldon M K, Chabal Y J and Williams G P 1999 Molecules at surfaces and interfaces studied using vibrational spectroscopies and related techniques Surf. Rev. Lett. 6 225-55... [Pg.1300]

Bain C D 1995 Sum-frequency vibrational spectroscopy of the solid-liquid interface J. Chem. See. Faraday Trans. 91 1281-96... [Pg.1300]

Richmond G L 1997 Vibrational spectroscopy of molecules at liquid/liquid interfaces Ana/. Chem. 69 A536-43... [Pg.1300]

Zhu X D, Suhr H and Shen Y R 1987 Surface vibrational spectroscopy by infrared-visible sum frequency generation Phys. Rev. B 35 3047-59... [Pg.1303]

Du Q, Superfine R, Freysz E and Shen Y R 1993 Vibrational spectroscopy of water at the vapor-water interface Phys. Rev. Lett. 70 2313-16... [Pg.1303]

The major role of TOF-SARS and SARIS is as surface structure analysis teclmiques which are capable of probing the positions of all elements with an accuracy of <0.1 A. They are sensitive to short-range order, i.e. individual interatomic spacings that are <10 A. They provide a direct measure of the interatomic distances in the first and subsurface layers and a measure of surface periodicity in real space. One of its most important applications is the direct determination of hydrogen adsorption sites by recoiling spectrometry [12, 4T ]. Most other surface structure teclmiques do not detect hydrogen, with the possible exception of He atom scattering and vibrational spectroscopy. [Pg.1823]

Zhu L, Wang W, Sage J T and Champion P M 1995 Femtosecond time-resolved vibrational spectroscopy of heme proteins J. Raman Spectrosc. 26 527-34... [Pg.1998]

As with the uncoupled case, one solution involves diagonalizing the Liouville matrix, iL+R+K. If U is the matrix with the eigenvectors as cohmms, and A is the diagonal matrix with the eigenvalues down the diagonal, then (B2.4.32) can be written as (B2.4.33). This is similar to other eigenvalue problems in quantum mechanics, such as the transfonnation to nonnal co-ordinates in vibrational spectroscopy. [Pg.2100]

Molecular clusters are weakly bound aggregates of stable molecules. Such clusters can be produced easily using supersonic expansion, and have been extensively studied by both electronic and vibrational spectroscopy [146,... [Pg.2400]

Handschuh H, Gantefor G and Eberhardt W 1995 Vibrational spectroscopy of clusters using a magnetic bottle electron spectrometer Rev. Sci. Instnim. 66 3838... [Pg.2404]

See other pages where Vibration /vibrations spectroscopy is mentioned: [Pg.31]    [Pg.31]    [Pg.203]    [Pg.318]    [Pg.1090]    [Pg.1125]    [Pg.1149]    [Pg.1174]    [Pg.1265]    [Pg.1325]    [Pg.1716]    [Pg.2885]    [Pg.2907]    [Pg.2954]    [Pg.2962]   


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Acquisition and Analysis in Biomedical Vibrational Spectroscopy

Amide vibrational modes, spectroscopy

Analytical application of vibrational spectroscopy

And vibrational spectroscopy

Anharmonicity vibrational spectroscopy

Applications in Vibrational Spectroscopy

Approach using Vibrational Spectroscopy

Atom-selective vibrational spectroscopy

Basic Principles of Vibrational Spectroscopy

Basic principles of electronic, vibrational and rotational spectroscopy

Basis of Vibrational Spectroscopy as a Structural Tool

Bending vibrations in infrared spectroscopy

Catalyst vibrational spectroscopy

Characterization techniques vibrational spectroscopies

Chemical reactivity vibrational spectroscopy

Chloride surfaces, vibrational spectroscopies

Complexation vibrational spectroscopy

Coupled vibrational spectroscopies

Crystalline vibrational spectroscopy

Density Functional Theory vibrational spectroscopy

Diatomic molecules vibrational spectroscopy

Early Approaches in Vibrational Spectroscopy

Electron energy loss spectroscopy vibrational

Electronic and Vibrational Spectroscopies

Electronic spectroscopy vibrational structure

Electronic-vibrational-rotational spectroscopy

Elementary Theory of Vibrational Spectroscopy

Elements of Hard Tissues, Detectable by Vibrational Spectroscopy

Experimental characterization techniques vibrational spectroscopy

Fast Vibrational Spectroscopy

Force field calculations, vibrational spectroscopy

Fourier Transform Technique vibrational spectroscopy

Fourier transform infrared spectroscopy vibration modes

Fourier transform vibration spectroscopy

Frequency vibrational spectroscopy

Gas Phase Vibrational Spectroscopy of Strong Hydrogen Bonds

General Approach to Analysing Vibrational Spectroscopy

Hemoglobin vibrational spectroscopy

Hydride vibrational spectroscopy

Hydrocarbons, adsorbed vibrational spectroscopy

INDEX vibrational spectroscopy

IR spectroscopy degrees of vibrational freedom

IR spectroscopy vibration

Imaging vibrational spectroscopy

Inelastic vibrational spectroscopy

Infrared Spectroscopy vibrational energy

Infrared Spectroscopy. Vibration-Rotation Spectra

Infrared radiation vibrational spectroscopy

Infrared spectroscopy bending vibrations

Infrared spectroscopy molecular vibrations

Infrared spectroscopy relation, vibrational frequencies

Infrared spectroscopy skeletal vibrations

Infrared spectroscopy stretching vibration

Infrared spectroscopy vibration modes

Infrared spectroscopy vibrational frequencies, calculation

Infrared spectroscopy vibrational line shapes

Infrared spectroscopy vibrational modes

Infrared spectroscopy vibrational structure

Infrared spectroscopy vibrations

Infrared vibration rotation tunneling spectroscopy

Intramolecular vibrational energy molecular spectroscopy

Intramolecular vibrational energy spectroscopy

Intramolecular vibrational redistribution spectroscopy

Ionic liquids vibrational spectroscopy

Lambert vibrational spectroscopy

Large molecule anharmonic vibrational spectroscopy

Linewidths vibrational spectroscopy

Local vibrational mode spectroscopy

Low temperature infrared spectroscopy vibrational frequency

Matrix isolation technique vibrational spectroscopy

Mechanical vibrational spectroscopy

Metal carbonyl complexes vibrational spectroscopy

Metal clusters vibrational spectroscopy

Microwave spectra, vibrational spectroscopy

Molecular Methods Other than Vibrational Spectroscopy

Molecular spectroscopy 1 rotational and vibrational spectra

Molecular spectroscopy rotation-vibration

Molecular structure vibrational spectroscopy

Molecular symmetries, vibrational spectroscopy

Molecular vibration Raman spectroscopy

Molecular vibrations resonance Raman spectroscopy

Molecules rotational-vibrational spectroscopy

Molecules, vibrational spectroscopy

Molecules, vibrational spectroscopy molecular crystal

Molecules, vibrational spectroscopy small, isolated

Molybdenum complexes vibrational spectroscopy

Monitoring of Fast Reactions in SCFs using Time-resolved Vibrational Spectroscopy

Near-infrared spectroscopy vibrations

Neutron vibrational spectroscopy

Nonlinear molecules vibrational spectroscopy

Nonlinear vibrational spectroscopy

Nuclear resonance vibrational spectroscopy

Nuclear resonance vibrational spectroscopy NRVS)

Optical cells for vibrational spectroscopy of fluids at high pressures and temperatures

Oscillatory tests - or mechanical vibrational spectroscopy

Osmium vibrational spectroscopy

Overview of Vibrational Spectroscopy

Oxides vibrational spectroscopies

Oxygen vibrational spectroscopy

Partial vibrational spectroscopy

Phase Composition Vibrational (Infrared and Raman) Spectroscopy

Phosphorus oxides vibrational spectroscopy

Phosphorus vibrational spectroscopy

Photoelectron spectroscopy band vibrational structure

Poly vibrational spectroscopy studies

Polyatomic Vibrational Spectroscopy

Polyatomic molecules vibrational spectroscopy

Polymers vibrational spectroscopy

Potential energy surface vibrational spectroscopy

Potential energy surface vibrational spectroscopy/photodissociation

Potential energy surfaces anharmonic vibrational spectroscopy

Principal vibrational spectroscopy

Principles of Sum-Frequency Vibrational Spectroscopy

Principles of Vibrational Spectroscopy

Process vibrational spectroscopy instrument

Protein vibrational spectroscopy

Pump-Probe Spectroscopy, Photon Echoes and Vibrational Wavepackets

Qualitative vibrational spectroscopy (fingerprinting)

Quantitative vibrational spectroscopy

Quantum numbers rotational-vibrational spectroscopy

Quantum numbers vibrational spectroscopy

Raman spectroscopy amide vibrations

Raman spectroscopy backbone vibrations

Raman spectroscopy side chain vibrations

Reactions vibrational spectroscopy

Rotational-Vibrational Spectroscopy

Ruthenium vibrational spectroscopy

Sampling for Vibrational Spectroscopy

Scattering vibrational spectroscopy

Second coherent vibrational spectroscopy

Selection rules for vibrational spectroscopy

Selection vibrational spectroscopy

Semi-empirical methods vibrational spectroscopy

Soils, bone, and the Baltic shoulder - archaeological applications of vibrational spectroscopy

Solid-state Vibrational Spectroscopies

Solvent effects vibrational spectroscopy

Spectroelectrochemistry vibrational spectroscopy

Spectroscopic studies vibrational spectroscopy

Spectroscopy Vibrational Raman

Spectroscopy anharmonic vibrational

Spectroscopy compounds, vibrational

Spectroscopy of vibrational transitions

Spectroscopy vibration-rotation

Spectroscopy vibration-rotational

Stretching vibrations and infrared spectroscopy

Structural information vibrational spectroscopy

Structure determination, experimental vibrational spectroscopy

Studies of chromophore-DNA interaction by vibrational spectroscopy

Subject vibrational spectroscopy

Sum-frequency vibrational spectroscopy SFVS)

Surface specific vibrational spectroscopy

Surface vibrational spectroscopy reflection-absorption infrared spectra

Surface vibrations spectroscopy

Surface-enhanced vibrational spectroscopy

The Basic Equations of Vibrational Spectroscopy

The Evolution of Vibrational Spectroscopies

The Quantized Harmonic Oscillator Vibrational Spectroscopy

The Vibrational Spectroscopies

Thin film characterization vibrational spectroscopy

Time domain vibrational spectroscopy

Time-resolved vibrational spectroscopy

Trans vibrational spectroscopy

Transition metal compounds, vibrational spectroscopy

Transmittance, vibrational spectroscopy

Two-Dimensional Electronic and Vibrational Spectroscopy

VIBRATION DAMPING SPECTROSCOPY

VIBRATIONAL SPECTROSCOPY FOR OPTIMIZATION OF SOLID-PHASE ORGANIC SYNTHESES

Vapor complexes, vibrational spectroscopy

Vibration /vibrations spectroscopy Raman

Vibration Raman spectroscopy

Vibration rotation tunnelling spectroscopy

Vibration spectroscopy

Vibration-rotation tunneling spectroscopy

Vibrational CD spectroscopy

Vibrational IR spectroscopy

Vibrational Mode Spectroscopy and Uniaxial Stress Techniques

Vibrational Spectroscopy (IRRAS)

Vibrational Spectroscopy in Diatomics

Vibrational Spectroscopy in Solutions

Vibrational Spectroscopy in Vascular Disease

Vibrational Spectroscopy of Diatomic and Linear Molecules

Vibrational Spectroscopy of Nonlinear Molecules

Vibrational Spectroscopy of Polypeptides

Vibrational Spectroscopy. Infrared Absorption. Raman Spectra

Vibrational and Rotational Spectroscopy

Vibrational circular dichroism spectroscopy

Vibrational frequency molecular absorption spectroscopy

Vibrational loss spectroscopy

Vibrational modes spectroscopy

Vibrational optical activity spectroscopy

Vibrational predissociation spectroscopy

Vibrational resonance spectroscopy

Vibrational spectra Raman spectroscopy

Vibrational spectra/spectroscopy

Vibrational spectroscopies CARS)

Vibrational spectroscopies HREELS

Vibrational spectroscopies RAIRS

Vibrational spectroscopies Raman activities

Vibrational spectroscopies Raman optical activity

Vibrational spectroscopies coherent anti-Stokes-Raman scattering

Vibrational spectroscopies density matrix

Vibrational spectroscopies moment gradient

Vibrational spectroscopy

Vibrational spectroscopy 1,2-dithiolenes

Vibrational spectroscopy Franck-Condon principle

Vibrational spectroscopy Raman polarization

Vibrational spectroscopy Raman scattering

Vibrational spectroscopy SERS)

Vibrational spectroscopy VEEL)

Vibrational spectroscopy absorbed species

Vibrational spectroscopy absorption techniques

Vibrational spectroscopy activation

Vibrational spectroscopy advantage

Vibrational spectroscopy alkenes

Vibrational spectroscopy aluminum hydrides

Vibrational spectroscopy and conformational

Vibrational spectroscopy and conformational analysis of oligonucleotides

Vibrational spectroscopy and electrons

Vibrational spectroscopy and molecular

Vibrational spectroscopy anharmonic couplings

Vibrational spectroscopy aromatic hydrocarbons

Vibrational spectroscopy bent molecules

Vibrational spectroscopy benzene

Vibrational spectroscopy blends

Vibrational spectroscopy branched-chain

Vibrational spectroscopy cadmium complexes

Vibrational spectroscopy chemical functional groups

Vibrational spectroscopy compared

Vibrational spectroscopy complexes

Vibrational spectroscopy compound, containing

Vibrational spectroscopy configuration

Vibrational spectroscopy conformation

Vibrational spectroscopy copolymer composition

Vibrational spectroscopy crystallinity

Vibrational spectroscopy cure studies

Vibrational spectroscopy cyclic

Vibrational spectroscopy data processing

Vibrational spectroscopy degradation

Vibrational spectroscopy diffuse reflectance

Vibrational spectroscopy diffuse reflectance mode

Vibrational spectroscopy diffuse-reflection Fourier-transform infrared

Vibrational spectroscopy electrode surfaces

Vibrational spectroscopy energy level transitions

Vibrational spectroscopy ethane

Vibrational spectroscopy ethene

Vibrational spectroscopy experiment

Vibrational spectroscopy features

Vibrational spectroscopy fingerprinting

Vibrational spectroscopy function

Vibrational spectroscopy fundamental vibration selection rule

Vibrational spectroscopy fundamentals

Vibrational spectroscopy group frequencies

Vibrational spectroscopy group frequency regions

Vibrational spectroscopy high-resolution electron-energy-loss

Vibrational spectroscopy hydroperoxides

Vibrational spectroscopy inelastic neutron scattering

Vibrational spectroscopy inelastic scattering

Vibrational spectroscopy infrared

Vibrational spectroscopy infrared absorption

Vibrational spectroscopy instrumentation

Vibrational spectroscopy intensities, calculation

Vibrational spectroscopy interfacial

Vibrational spectroscopy introduction

Vibrational spectroscopy isomers distinguished using

Vibrational spectroscopy isotopic substitution

Vibrational spectroscopy linear

Vibrational spectroscopy linear molecules

Vibrational spectroscopy liquid-solid surfaces

Vibrational spectroscopy maximum interaction

Vibrational spectroscopy mechanisms

Vibrational spectroscopy metal-carbon stretching vibrations

Vibrational spectroscopy metal-surface selection rule

Vibrational spectroscopy methane

Vibrational spectroscopy method validation

Vibrational spectroscopy mode numbering

Vibrational spectroscopy molecular force constants

Vibrational spectroscopy molecular orientation

Vibrational spectroscopy molecular vibrations

Vibrational spectroscopy molecule vibration

Vibrational spectroscopy morphology

Vibrational spectroscopy normal coordinate analysi

Vibrational spectroscopy normal coordinate analysis

Vibrational spectroscopy normal vibration modes

Vibrational spectroscopy normal vibration symmetry

Vibrational spectroscopy observing molecular vibrations

Vibrational spectroscopy of proteins

Vibrational spectroscopy of proton conductors

Vibrational spectroscopy optical properties

Vibrational spectroscopy orientation distribution

Vibrational spectroscopy overview

Vibrational spectroscopy overview - selection rules

Vibrational spectroscopy oxide-supported metal catalysts

Vibrational spectroscopy parameters

Vibrational spectroscopy photoacoustic

Vibrational spectroscopy photon-based techniques

Vibrational spectroscopy polarisability

Vibrational spectroscopy polarised absorption

Vibrational spectroscopy polymer branching

Vibrational spectroscopy polymerisation

Vibrational spectroscopy propenes

Vibrational spectroscopy qualitative

Vibrational spectroscopy quantitative techniques

Vibrational spectroscopy quantum-mechanical treatment

Vibrational spectroscopy room-temperature

Vibrational spectroscopy selection rules

Vibrational spectroscopy sequencing

Vibrational spectroscopy site symmetries

Vibrational spectroscopy specular reflectance

Vibrational spectroscopy structures

Vibrational spectroscopy substituted benzenes

Vibrational spectroscopy surface analysis

Vibrational spectroscopy surface studies

Vibrational spectroscopy symmetry considerations

Vibrational spectroscopy symmetry selection rule

Vibrational spectroscopy toluene

Vibrational spectroscopy transition metal carbonyl complexes

Vibrational spectroscopy transitions

Vibrational spectroscopy with neutrons

Vibrational spectroscopy with neutrons the future

Vibrational spectroscopy zinc complexes

Vibrational spectroscopy, SFG

Vibrational spectroscopy, applications

Vibrational spectroscopy, background

Vibrational spectroscopy, basic principles

Vibrational spectroscopy, molecular

Vibrational spectroscopy, static

Vibrational spectroscopy, surface structure

Vibrational spectroscopy, theory

Vibrational spectroscopy, transition metal

Vibrational spectroscopy, ultrafast

Vibrational states spectroscopy

Vibrational structure, photoelectron spectroscopy studies

Vibrational sum frequency generation spectroscopy

Vibrational sum frequency spectroscopy

Vibrational surface spectroscopy

Water vibrational spectroscopy

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