13.11 : 红外频率区域：指纹区域

The IR spectrum can be divided into two main regions: The diagnostic region and the fingerprint region.

Bands in the diagnostic region arise from stretching absorptions of the bonds connected to hydrogen, and different types of triple bonds and double bonds.

The fingerprint region is the complex region in the IR spectrum between 1500 and 450 cm⁻¹, showcasing a large number of absorptions resulting from stretching and bending vibrations of various single bonds.

Each compound has a unique pattern of peaks in the fingerprint region which is useful for distinguishing molecules that have identical functional groups.

For instance, 2–butanol and 2–propanol exhibit identical C–H and O–H signals in the diagnostic region and are, therefore, indistinguishable. However, they have a different pattern of peaks in the fingerprint region, making them easily distinguishable.

红外光谱分为两个主要区域：诊断区域和指纹区域。光谱的诊断区域位于 1500 cm^-1 以上。N–H、C-H 和 O–H 的单键振动产生的吸收在较高的波数下发生振动，并出现在光谱的左侧区域。C≡C 和 C≡N 的振动吸收发生在 2100–2300 cm^-1 之间。相反，C=O、C=N 和 C=C 的振动吸收发生在 1600–1850 cm^-1 之间。

1500 cm^-1 以下的吸收位于指纹区域，由 C–C、C–O 和 C–N 键的振动引起。该区域也称为复杂光谱区域，分析起来更为困难。有时结构接近的分子的光谱会重叠，在诊断区域中无法区分。然而，由于它们呈现出独特的峰型，因此可以在指纹区中加以区分。例如，丁醇和丙醇的 O–H 和 C–H 基团在诊断区中表现出相似的振动吸收，但它们在指纹区中呈现出不同的峰型，这有助于对它们进行区分。

Tags

IR Spectra Fingerprint Region Diagnostic Region Absorptions Single bond Vibrations Stretching Absorptions C C C O C N C C Bonds Complex Spectra Region Unique Pattern Of Peaks Molecular Distinguishability

来自章节 13:

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13.11 : 红外频率区域：指纹区域

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13.1 : 红外（IR）光谱：概述

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13.2 : 红外光谱：分子振动 - 概述

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13.4 : 红外光谱仪

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13.5 : 红外光谱

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13.6 : IR 吸收频率:杂交

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13.7 : IR 吸收频率:离域

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13.8 : 红外频率范围：X-H 伸缩

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13.9 : 红外频率诊断区域：炔烃和腈的振动

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13.12 : 红外光谱峰强：红外活性键的数量

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13.13 : 红外光谱峰强度：偶极矩

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13.14 : 红外光谱峰展宽：氢键。

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13.15 : 红外光谱峰分裂：对称与非对称振动

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