ABSTRACT:Advances in soft ionization techniques for mass spectrometry 的简体中文翻译

ABSTRACT:Advances in soft ionizatio

ABSTRACT:Advances in soft ionization techniques for mass spectrometry (MS) of polymeric materials make it possible to determine the masses of intact molecular ions exceeding megadaltons. Interfacing MS with separation and fragmentation methods has additionally led to impressive advances in the ability to structurally characterize polymers. Even if the gap to the megadalton range has been bridged by MS for polymers standards, the MS-based analysis for more complex polymeric materials is still challenging. Charge detection mass spectrometry (CDMS) is a single-molecule method where the mass and the charge of each ion are directly determined from individual measurements. The entire molecular mass distribution of a polymer sample can be thus accurately measured. Described in this perspective paper is how molecular weight distribution as well as charge distribution can provide new insights into the structural and compositional studies of synthetic polymers and polymeric nanomaterials in the megadalton to gigadalton range of molecular weight. The recent multidimensional CDMS studies involving couplings with separation and dissociation techniques will be presented. And, finally, an outlook for the future avenues of the CDMS technique in the field of synthetic polymers of ultra-high molar mass and polymeric nanomaterials will be provided.
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摘要:用于聚合物材料质谱(MS)的软电离技术的进步使测定超过百万道尔顿的完整分子离子的质量成为可能。MS与分离和片段化方法的接口还导致在结构上表征聚合物的能力方面取得了令人瞩目的进步。即使通过MS消除了聚合物标准中与百万道尔顿范围的差距,对更复杂的聚合物材料进行基于MS的分析仍然具有挑战性。电荷检测质谱法(CDMS)是一种单分子方法,其中每个离子的质量和电荷直接从各个测量值中确定。因此可以精确地测量聚合物样品的整个分子量分布。该观点文件描述了分子量分布和电荷分布如何为分子量范围为megadalton至gigadalton的合成聚合物和聚合物纳米材料的结构和组成研究提供新见解。将介绍最近的多维CDMS研究,该研究涉及与分离和解离技术的耦合。最后,将提供对超高摩尔质量的合成聚合物和聚合物纳米材料领域中CDMS技术的未来前景的展望。将介绍最近的多维CDMS研究,该研究涉及与分离和解离技术的耦合。最后,将提供对超高摩尔质量的合成聚合物和聚合物纳米材料领域中CDMS技术的未来前景的展望。将介绍最近的多维CDMS研究,该研究涉及与分离和解离技术的耦合。最后,将提供对超高摩尔质量的合成聚合物和聚合物纳米材料领域中CDMS技术的未来前景的展望。
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结果 (简体中文) 2:[复制]
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ABSTRACT:Advances in soft ionization techniques for mass spectrometry (MS) of polymeric materials make it possible to determine the masses of intact molecular ions exceeding megadaltons. Interfacing MS with separation and fragmentation methods has additionally led to impressive advances in the ability to structurally characterize polymers. Even if the gap to the megadalton range has been bridged by MS for polymers standards, the MS-based analysis for more complex polymeric materials is still challenging. Charge detection mass spectrometry (CDMS) is a single-molecule method where the mass and the charge of each ion are directly determined from individual measurements. The entire molecular mass distribution of a polymer sample can be thus accurately measured. Described in this perspective paper is how molecular weight distribution as well as charge distribution can provide new insights into the structural and compositional studies of synthetic polymers and polymeric nanomaterials in the megadalton to gigadalton range of molecular weight. The recent multidimensional CDMS studies involving couplings with separation and dissociation techniques will be presented. And, finally, an outlook for the future avenues of the CDMS technique in the field of synthetic polymers of ultra-high molar mass and polymeric nanomaterials will be provided.
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结果 (简体中文) 3:[复制]
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文摘:高分子材料质谱软电离技术的发展,使测定超过兆道尔顿的完整分子离子质量成为可能。将质谱与分离和裂解方法结合在一起,使聚合物的结构表征能力得到了显著的提高。即使对于聚合物标准而言,质谱已经弥合了与兆道尔顿范围的差距,但对于更复杂的聚合物材料,基于质谱的分析仍然具有挑战性。电荷检测质谱法(CDMS)是一种单分子方法,其中每个离子的质量和电荷都是通过单独的测量直接确定的。因此,可以精确测量聚合物样品的整个分子质量分布。本文从分子量分布和电荷分布两个方面对分子量在兆道尔顿到千兆道尔顿范围内的合成聚合物和聚合物纳米材料的结构和组成研究提供了新的见解。最近的多维CDMS研究涉及分离和解离技术的耦合。最后,展望了CDMS技术在超高摩尔质量聚合物和聚合物纳米材料合成领域的应用前景。<br>
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