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相关概念视频

Mass Spectrometers01:16

Mass Spectrometers

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This lesson details the instrumentation of a mass spectrometer—a physical instrument to perform mass spectrometry on analyte molecules and record the characteristic mass spectra. This is achieved via three chief functions:
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Mass Spectrometry: Complex Analysis01:21

Mass Spectrometry: Complex Analysis

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Mass spectrometry is an important technique for the identification of pure compounds. However, it has some limitations for the analysis of complex mixtures, often due to excessive fragmentation making the spectrum too complicated to decipher. Mass spectrometry can be combined with suitable separation methods in sequence, forming hyphenated methods, which are useful in the analysis of complex mixtures.
GC–MS is a powerful hyphenated method commonly used in forensics and environmental...
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Mass Spectrometry: Overview01:19

Mass Spectrometry: Overview

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Mass spectrometry is an analytical technique used to determine the molecular mass and molecular formula of a compound. The basic principle of mass spectrometry is to generate ions from the analyte molecule and measure these ion abundances against their molecular mass.  One common type of ionization, known as electrospray ionization or EI, bombards the analyte molecules in the gas phase with high-energy electron beams. The electron beams displace an electron from the molecule and leave...
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Tandem Mass Spectrometry01:21

Tandem Mass Spectrometry

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Tandem mass spectrometry is a technique that uses multiple mass analyzers in series to obtain a higher selectivity and signal-to-noise ratio for the analyte. Instruments with multiple analyzers separated by an interaction cell enable secondary fragmentation and selected study of the fragment ions.
Secondary fragmentations occur in the interaction cell and can be induced by various factors. Fragmentation induced by collision with inert gases, such as N2, Ar, He, etc., is called collision-induced...
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Mass Analyzers: Overview01:13

Mass Analyzers: Overview

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The mass analyzer is a crucial component of the mass spectrometer. In the ionization chamber, the vaporized sample is bombarded with a high-energy electron beam to generate a radical cation and further fragment into neutral molecules, radicals, and cations. A series of negatively charged accelerator plates accelerate the cations into the mass analyzer. The mass analyzer separates ions according to their mass-to-charge (m/z) ratios and then directs them to the detector. The common types of mass...
598
Inductively Coupled Plasma–Mass Spectrometry (ICP–MS): Overview01:19

Inductively Coupled Plasma–Mass Spectrometry (ICP–MS): Overview

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In inductively coupled plasma–mass spectrometry (ICP–MS), an inductively coupled plasma (ICP) torch is used as an atomizer and ionizer. Solid samples are dissolved and volatilized before being introduced into the high-temperature argon plasma, while solution samples are nebulized and passed through the high-temperature argon plasma. Plasma dissociates the analytes and ionizes their component atoms to form a mixture of positive ions and molecular species. The positive ions are then...
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Optimal Preparation of Formalin Fixed Samples for Peptide Based Matrix Assisted Laser Desorption/Ionization Mass Spectrometry Imaging Workflows
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定位式质谱成像:过去,现在和未来

Xiaokang Guan1, Qiao Lu2, Shuxian Liu1

  • 1Department of Chemistry and the MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Innovation Laboratory for Sciences and Technologies of Energy Materials of Fujian Province (IKKEM), College of Chemistry and Chemical Engineering, and Discipline of Intelligent Instruments and Equipment, Xiamen University, Xiamen, China.

Mass spectrometry reviews
|November 19, 2024
PubMed
概括

定位技术通过提高电离效率和灵敏度来增强质谱成像 (MSI). 这克服了高分辨率MSI的局限性,使科学和医学领域的应用更广泛.

关键词:
影像成像技术 影像成像技术质谱测量质谱测量质谱测量质谱测量质量测量质谱测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量质量测量东部化后的位置化.审查 审查 审查 审查 审查 审查采样方式的采样方式.

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科学领域:

  • 分析化学 分析化学
  • 频谱学是一种光谱学.
  • 影像成像技术 影像成像技术

背景情况:

  • 质谱成像 (MSI) 对于分析试剂的现场空间分布的分析至关重要.
  • 在MSI的进步是由更高的空间分辨率的需求驱动的.
  • 在MSI中,直接脱/电离方法面临由于电离效率不足的局限性,阻碍了高分辨率能力.

研究的目的:

  • 审查质谱成像 (MSI) 中的后离子化方法.
  • 讨论后位化如何解决 MSI 中空间分辨率和灵敏度之间的权衡.
  • 探索后离子化对各种MSI采样模式的影响.

主要方法:

  • 在MSI中讨论采样和电离的步骤.
  • 通过采样方式分类的后离子化技术的审查:激光,探头和离子束采样.
  • 在MSI中分析后离子化带来的好处.

主要成果:

  • 定位化显著提高了MSI中的电离效率和灵敏度.
  • 它有助于减轻歧视效应,导致更准确的分析物检测.
  • 定位化简化了样本准备,并扩大了MSI的适用性.

结论:

  • 定位技术是高分辨率和高灵敏度MSI的一个关键进步.
  • 它解决了空间分辨率和灵敏度之间的内在冲突,在直接脱/离子化中.
  • 位置化为生物医学科学,材料科学和法医分析领域的应用提供了巨大的潜力.