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Gas Chromatography: Types of Detectors-II01:19

Gas Chromatography: Types of Detectors-II

In gas chromatography, different detectors are employed to meet specific analytical needs. These detectors are often categorized based on their detection mechanisms and the types of compounds they are best suited to analyze. Thermal Conductivity Detectors (TCD), Flame Ionization Detectors (FID), and Electron Capture Detectors (ECD) represent common categories, each with unique operating principles and applications. However, beyond these, several other detectors are designed for more specialized...
IR Frequency Region: Fingerprint Region01:03

IR Frequency Region: Fingerprint Region

IR spectra are divided into two main regions: the diagnostic region and the fingerprint region. The diagnostic region of the spectrum lies above 1500 cm−1. The absorptions resulting from single-bond vibrations of the N–H, C–H, and O–H stretch at higher wavenumbers and appear on the left side of the spectrum. The stretching absorptions of the C≡C and C≡N occur between 2100–2300 cm−1. In contrast, those arising from stretching absorptions of the C=O, C=N, and C=C occur between 1600–1850 cm−1.
The...
Infrared (IR) Spectroscopy: Overview01:09

Infrared (IR) Spectroscopy: Overview

When electromagnetic radiation passes through a material, atoms or molecules transition from a lower to a higher energy state by absorbing radiation corresponding to the energy difference between the two states. The absorption of infrared (IR) radiation causes transitions between vibrational energy levels in a molecule. Therefore, IR spectroscopy is a useful analytical tool for determining the molecular structure of molecules.
Different compounds display unique properties due to their...
Gas Chromatography: Types of Detectors-I01:21

Gas Chromatography: Types of Detectors-I

There are different types of detectors used in gas chromatography, each with its own specific properties that make it suitable for detecting certain types of analytes. The most commonly used detectors in GC are thermal conductivity detector (TCD), flame ionization detector (FID), and electron capture detector (ECD).
TCD is the earliest and most widely used detector that operates by measuring the changes in the thermal conductivity of the carrier gas. When a sample compound enters the detector,...
IR Spectrometers01:25

IR Spectrometers

There are two main infrared (IR) spectrophotometers: dispersive IR spectrometers and Fourier transform infrared (FTIR) spectrometers. In a dispersive IR spectrometer, a beam of infrared radiation produced by a hot wire is divided into two parallel equal-intensity beams using mirrors. One beam passes through the sample, while another is a reference beam. The beams then move through the monochromator, which separates the radiations into a continuous spectrum of different frequencies. The...
High-Performance Liquid Chromatography: Types of Detectors01:15

High-Performance Liquid Chromatography: Types of Detectors

The role of the detectors in High-Performance Liquid Chromatography (HPLC) is to analyze the solutes as they exit from the chromatographic column. The detector recognizes the solute's property and generates corresponding electrical signals, which are converted into a readable graph of the detector's response versus elution time called a chromatogram at the computer. There are several types of HPLC detectors, each with its own advantages and limitations, depending on the analyte properties and...

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Related Experiment Video

Updated: Jun 14, 2026

Infrared Degenerate Four-wave Mixing with Upconversion Detection for Quantitative Gas Sensing
10:42

Infrared Degenerate Four-wave Mixing with Upconversion Detection for Quantitative Gas Sensing

Published on: March 22, 2019

Pyroelectric PVF(2) infrared detector arrays.

U Korn, Z Rav-Noy, S Shtrikman

    Applied Optics
    |March 25, 2010
    PubMed
    Summary

    New pyroelectric detector arrays using polyvinylidene fluoride (PVF2) membranes were developed. These arrays offer high performance for infrared detection applications.

    Area of Science:

    • Materials Science
    • Electrical Engineering
    • Physics

    Background:

    • Pyroelectric detectors are crucial for infrared sensing.
    • Developing high-performance, miniaturized detector arrays is an ongoing challenge.

    Purpose of the Study:

    • To construct linear arrays of thin-film pyroelectric detectors.
    • To integrate these detectors with self-scanning electronics for enhanced functionality.

    Main Methods:

    • Fabrication of linear arrays using 0.5-0.8 micrometer thick polyvinylidene fluoride (PVF2) membranes.
    • Each detector element measured 0.1 x 3 mm.
    • Integration of twenty-four channels with hybrid self-scanning electronics and vacuum packaging.

    Main Results:

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    Last Updated: Jun 14, 2026

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    • Achieved a detectivity (D*) of 1.5 x 10^9 cmHz^1/2/W at 10 Hz.
    • Demonstrated low thermal crosstalk of less than 15% at 50 Hz.

    Conclusions:

    • Successfully constructed functional linear pyroelectric detector arrays.
    • The developed arrays exhibit promising performance characteristics for infrared detection.