SU61601A1 - The method of absorption analysis in the ultraviolet - Google Patents

Description

Б Absorption инь analysis of Li .1 1. фи: фи фи Ю .Y: apply with r, r, | : h; 1 nnye ob.tast x techniques, bi () lo tii and melinit However, shirszho.mkh the introduction of this method is hampered by the need to use expensive spectral fibers, although it is not necessary to know the exact absorption spectrum of a given substance in a few seconds, it is enough to have those and other parameters, characterization; s P01.10 veins, the Russian Federation; in y, 1T |) aiofiolet. In practice, it is very often necessary to have a way that you would allow, in a mixture, to quickly distinguish one substance from a two-sin to him.

According to the proposed ultraviolet absorptive analysis method with the help of a phosphor located between LICTOMHIIKOM ultra |) aftertop of radiation and a test substance, a narrow portion of the radiation spectrum is distinguished. The first circuit of the instrument, ensuring that the absorption analysis is carried out by this method, is as follows.

Light from the exciting source of street 1) Trappoletovo1 | radiation condensed by quartz lenses, drops on a fluorescent display screen placed in front of the photocell. The light from the fluorescent screen of the Hiero is taken to the photocell through a filter that is removed. all visible ultraviolet and visible light except for that part of the visible spectrum that is in the fluorescence band.

The photocell is included in the compensation scheme, the second branch of which includes the second photocell located behind the test object, illuminated by the same source of ultraviolet radiation. It is essential that a light filter is installed in front of the second photocell, which removes all the scattered ultraviolet.

X niGll-: F. X10O) scrolling) y) from the screens are selected in such a way that the excitation region of one screen starts, say, from 3000-3200 A,

another at 300-200 A, below, etc. It is known that the excitation spectra, corresponding to the absorption spectra, begin very abruptly from the dlinnosolic side. On the other hand, it is always possible to pick up such a substance, which has a crunch 1a with the absorption band in the ultraviolet, and the beginning of this band is shifted in relation to the fluorescence of the fluorescent condition on

50-100. A.vf

In a number of cases it is possible to use n steep hallways, absorbscin in the UV. Then, obviously, it is not difficult to isolate a relatively narrow spectral region for the excitation of fluorescence; ; .a-with a linear source ciieKTjie - even a separate line Hjni group 1inny. ,

Using this photoelectric circuit, it is possible to measure the absorption in a given band.

By selecting a number of such bands by a set of luminescent screens and filters, it is possible to unambiguously characterize the test substance placed in the ultraviolet and distinguish it among two or three accompanying and determined concentration.

PREDIMT FROM ABOUT

An absorption analysis method in ultraviolet light with iso; pzZova1P1em photoelectric photometer to measure the absorbance of the test subject under test and using the phosphor material located between the ultraviolet ultraviolet radiation and the test materials; o highlight a narrow spectrum.