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Visible range

Absorption spectroscopy provides a means to study particular details about a monolayer. Transmission spectroscopy is difficult because the film, which is thin, absorbs little. Gaines [1] describes multiple-pass procedures for overcoming this problem. Reflection spectroscopy in the UV-visible range has been reported for lipid monolayers [150,151] and in the IR range for oleic acid [152]. [Pg.126]

Many organic compounds such as lycopene are colored because their HOMO-LUMO energy gap is small enough that appears m the visible range of the spec trum All that is required for a compound to be colored however is that it possess some absorption m the visible range It often happens that a compound will have its k m the UV region but that the peak is broad and extends into the visible Absorption of the blue to violet components of visible light occurs and the compound appears yellow... [Pg.567]

UV/Vis ultraviolet and visible ranges, sjechnlques discussed In this text. [Pg.373]

UVA/is Ultraviolet and visible ranges. Techniques covered in this text. [Pg.374]

The practical use of photochromic dyes as memory layers in erasable and rewritable data storage disks fails not only because of their physical limitations (lacking sensitivity, insufficient stabiHty, low number of cycles), but also because the diode lasers required for switching in the visible range (wavelength between 450 and 600 nm) and the uv-range (around 350 nm) are not available. [Pg.151]

In view of the chromophoric character of the elemental iodine itself, many colorimetric methods have been proposed for the deterrnination of inorganic iodine (88—92). These methods use the visible portion of the spectmm in reading iodine concentrations. In the visible range the extinction coefficient for iodine is not high enough to be used for minute quantities of iodine in water and other solvents (93). Higher sensitivities have been reported for elemental iodine in potassium iodide solutions in the ultraviolet (93,94). [Pg.364]

The photoconductive detector is primarily used in the visible-infrared region rather than the ultraviolet—visible range. [Pg.398]

An optical detector with appropriate electronics and readout. Photomultiplier tubes supply good sensitivity for wavelengths in the visible range, and Ge, Si, or other photodiodes can be used in the near infrared range. Multichannel detectors like CCD or photodiode arrays can reduce measurement times, and a streak camera or nonlinear optical techniques can be used to record ps or sub-ps transients. [Pg.383]

Ultraviolet absorbers are a form of light screen which absorb primarily in the ultraviolet range. It is a requirement for most ultraviolet absorbers that absorption in the visible range should be negligible if this were not so the resultant instant colour formation could be worse than that experienced after prolonged exposure of the polymer. [Pg.145]

Hydroxy- 4-methoxybenzophenone OH 0 CH.O-( )- i -(g) Substituted monohydroxy-benzophenone Negligible absorption in visible range. [Pg.146]

Tris- (2-hydroxyphenyl)-triazine /OH OH Triazine Powerful but some absorption in visible range... [Pg.147]

High optical clarity (>95% in the visible range extending into the near infrared together with a good level of transparency to ultraviolet light). [Pg.378]

An IBSCA-spectrum (Fig. 4.48) consists of many peaks in the visible range (250-900 nm). Every peak can be related to an process of electron de-excitation of a sputtered particle from a higher to a lower state, for the more dominant peaks to the ground state. There are, in principle, two major types of peak family type I - photons emitted from excited sputtered secondary neutrals and type II - photons emitted from excited sputtered secondary ions (single charged). [Pg.243]

The peaks can be identified from tables of spectra [4.262]. The variety of electronic transitions allowed results in many peaks in the visible range these are sometimes... [Pg.243]

Colorless substances absorb at wavelengths shorter than those of the visible range (the UV range normally amenable to analysis X = 400...200 nm). Such compounds can be detected by the use of UV-sensitive detectors (photomultipliers. Sec. 2.2.3.1). Substances that absorb in the UV range and are stimulated to fluorescence or phosphorescence (luminescence) can be detected visually if they are irradiated with UV light. [Pg.10]

Interference Films thin transparent films which exhibit colours by interference of light in the visible range. [Pg.1369]

Alicyclic dianhydrides are interesting for electronic applications. The polyimides obtained from them are colorless with high transparency in the visible range, exhibit low birefringence,125 and have a low dielectric constant.126 The reactivity of the polycyclic aliphatic dianhydride has been investigated. For example, bicyclo-[2,2,2]-oct-7-ene tetracarboxylic dianhydride reacts quickly with an aromatic amine because the bicyclo-imide is less strained than the corresponding dianhydride.127... [Pg.297]

See other pages where Visible range is mentioned: [Pg.48]    [Pg.1972]    [Pg.132]    [Pg.194]    [Pg.334]    [Pg.155]    [Pg.423]    [Pg.9]    [Pg.162]    [Pg.161]    [Pg.162]    [Pg.165]    [Pg.426]    [Pg.466]    [Pg.466]    [Pg.101]    [Pg.306]    [Pg.130]    [Pg.77]    [Pg.151]    [Pg.154]    [Pg.241]    [Pg.49]    [Pg.40]    [Pg.450]    [Pg.233]    [Pg.809]    [Pg.288]    [Pg.582]    [Pg.24]    [Pg.986]    [Pg.259]   
See also in sourсe #XX -- [ Pg.293 ]



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Absorption Spectra in the Visible Range

Optical Spectroscopy in the Visible Range

Optical visible range

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