Signal processing in portable ion mobility spectroscopy

Identifying structural elements within glycosaminoglycans that enable their interaction with a specific client protein remains a challenging task due to the high degree of both intra- and inter-chain heterogeneity exhibited by this polysaccharide.

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Novel method based on ion mobility spectroscopy for the quantification of adulterants in honeys

Food Control ◽

10.1016/j.foodcont.2020.107236 ◽

2020 ◽

Vol 114 ◽

pp. 107236 ◽

Cited By ~ 3

Author(s):

María José Aliaño-González ◽

Marta Ferreiro-González ◽

Estrella Espada-Bellido ◽

Gerardo F. Barbero ◽

Miguel Palma

Keyword(s):

Ion Mobility ◽

Novel Method ◽

Ion Mobility Spectroscopy

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Microfabricated vapor preconcentrator for portable ion mobility spectroscopy

Sensors and Actuators B Chemical ◽

10.1016/j.snb.2007.03.040 ◽

2007 ◽

Vol 126 (2) ◽

pp. 447-454 ◽

Cited By ~ 49

Author(s):

Michael Martin ◽

Mark Crain ◽

Kevin Walsh ◽

R. Andrew McGill ◽

Eric Houser ◽

...

Keyword(s):

Ion Mobility ◽

Ion Mobility Spectroscopy

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Quantitative ion mobility spectroscopy based on molecular collision rate theory

International Journal for Ion Mobility Spectrometry ◽

10.1007/s12127-013-0134-4 ◽

2013 ◽

Vol 16 (4) ◽

pp. 265-274

Author(s):

David C. Swanson

Keyword(s):

Ion Mobility ◽

Rate Theory ◽

Collision Rate ◽

Molecular Collision ◽

Ion Mobility Spectroscopy

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DEVELOPMENT OF A MICROFABRICATED VAPOR PRECONCENTRATOR FOR PORTABLE ION MOBILITY SPECTROSCOPY

2004 Solid-State, Actuators, and Microsystems Workshop Technical Digest ◽

10.31438/trf.hh2004.103 ◽

2004 ◽

Author(s):

M. Martin ◽

M. Crain ◽

K. Walsh ◽

R.A. McGill ◽

E.J. Houser ◽

...

Keyword(s):

Ion Mobility ◽

Ion Mobility Spectroscopy

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A concise review on lipidomics analysis in biological samples

ADMET & DMPK ◽

10.5599/admet.913 ◽

2020 ◽

Vol 9 (1) ◽

pp. 1-22

Author(s):

Ramesh Mullangi ◽

Ramani Addepalli

Keyword(s):

Ion Mobility ◽

Molecular Species ◽

Biological Activities ◽

Imaging Techniques ◽

Analytical Techniques ◽

Biological Tissues ◽

Molecular Entity ◽

Structural Isomers ◽

Vast Number ◽

Ion Mobility Spectroscopy

Lipids are a complex and critical heterogeneous molecular entity, playing an intricate and key role in understanding biological activities and disease processes. Lipidomics aims to quantitatively define the lipid classes, including their molecular species. The analysis of the biological tissues and fluids are challenging due to the extreme sample complexity and occurrence of the molecular species as isomers or isobars. This review documents the overview of lipidomics workflow, beginning from the approaches of sample preparation, various analytical techniques and emphasizing the state-of-the-art mass spectrometry either by shotgun or coupled with liquid chromatography. We have considered the latest ion mobility spectroscopy technologies to deal with the vast number of structural isomers, different imaging techniques. All these techniques have their pitfalls and we have discussed how to circumvent them after reviewing the power of each technique with examples.

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Design and Implementation of FFT Signal Processing System for Ion Mobility Spectrometer

2018 IEEE 4th Information Technology and Mechatronics Engineering Conference (ITOEC) ◽

10.1109/itoec.2018.8740593 ◽

2018 ◽

Author(s):

Genwei Zhang ◽

Shuya Cao ◽

Jiang Zhao ◽

Qibin Huang

Keyword(s):

Signal Processing ◽

Ion Mobility ◽

Processing System ◽

Signal Processing System ◽

Ion Mobility Spectrometer ◽

Design And Implementation

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Differential ion mobility spectroscopy: non-invasive real-time diagnostics and therapy control in metabolic diseases

European Journal of Medical Research ◽

10.1186/2047-783x-14-s4-121 ◽

2009 ◽

Vol 14 (S4) ◽

Cited By ~ 2

Author(s):

A Kikowatz ◽

G Becher ◽

S Dietze ◽

W Steinhausser ◽

E Beck

Keyword(s):

Real Time ◽

Ion Mobility ◽

Metabolic Diseases ◽

Therapy Control ◽

Non Invasive ◽

Ion Mobility Spectroscopy ◽

Diagnostics And Therapy

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Action and Ion Mobility Spectroscopy of a Shortened Retinal Derivative

Journal of the American Society for Mass Spectrometry ◽

10.1007/s13361-018-2033-8 ◽

2018 ◽

Vol 29 (11) ◽

pp. 2152-2159 ◽

Cited By ~ 1

Author(s):

Lihi Musbat ◽

Shirrel Assis ◽

Jonathan M. Dilger ◽

Tarick J. El-Baba ◽

Daniel R. Fuller ◽

...

Keyword(s):

Ion Mobility ◽

Ion Mobility Spectroscopy

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Trichloro(Dinitrogen)platinate(II)

10.26434/chemrxiv.12367472.v1 ◽

2020 ◽

Author(s):

Gilian T. Thomas ◽

Sofia Donnecke ◽

Irina Paci ◽

J Scott McIndoe

Keyword(s):

Mass Spectrometry ◽

Gas Phase ◽

Ion Mobility ◽

Computational Analysis ◽

Ionization Mass ◽

Organometallic Complex ◽

Polar Solvents ◽

Dinitrogen Complexes ◽

Ion Mobility Spectroscopy ◽

Platinum Salt

Zeise’s salt, [PtCl3(H2C=CH2)]–, is the oldest known organometallic complex, featuring ethylene strongly bound to a platinum salt. Many derivatives are known, but none involving dinitrogen, and indeed dinitrogen complexes are unknown for both platinum and palladium. Electrospray ionization mass spectrometry of K2[PtCl4] solutions generate strong ions corresponding to [PtCl3(N2)]–, whose identity was confirmed through ion mobility spectroscopy and MS/MS experiments that proved it to be distinct from its isobaric counterparts [PtCl3(C2H4)]– and [PtCl3(CO)]–. Computational analysis established a gas-phase platinum-dinitrogen bond strength of 116 kJ mol-1, substantially weaker than the ethylene and carbon monoxide analogues but stronger than for polar solvents such as water, methanol and dimethylformamide, and strong enough that the calculated N-N bond length of 1.119 Å represents weakening to a degree typical of isolated dinitrogen complexes.

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