Enhanced ion utilization efficiency using an electrodynamic ion funnel trap as an injection mechanism for ion mobility spectrometry.
about
Ion mobility-mass spectrometry: time-dispersive instrumentationOnline Hydrogen-Deuterium Exchange Traveling Wave Ion Mobility Mass Spectrometry (HDX-IM-MS): a Systematic EvaluationDetecting and removing data artifacts in Hadamard transform ion mobility-mass spectrometry measurementsDrift tube ion mobility and four-dimensional molecular feature extraction enable data-independent tandem mass spectrometric 'omics' analysis without quadrupole selection.Dynamically multiplexed ion mobility time-of-flight mass spectrometryEnhanced Mixture Separations of Metal Adducted Tetrasaccharides Using Frequency Encoded Ion Mobility Separations and Tandem Mass Spectrometry.Dual source ion mobility-mass spectrometer for direct comparison of electrospray ionization and MALDI collision cross section measurements.An LC-IMS-MS platform providing increased dynamic range for high-throughput proteomic studies.The ion funnel: theory, implementations, and applicationsEnhancing glycan isomer separations with metal ions and positive and negative polarity ion mobility spectrometry-mass spectrometry analyses.Improving ion mobility measurement sensitivity by utilizing helium in an ion funnel trap.Ion Elevators and Escalators in Multilevel Structures for Lossless Ion Manipulations.Characterization of an Ion Mobility-Multiplexed Collision Induced Dissociation-Tandem Time-of-Flight Mass Spectrometry Approach.Implementation of dipolar resonant excitation for collision induced dissociation with ion mobility/time-of-flight MS.Increasing Confidence of LC-MS Identifications by Utilizing Ion Mobility Spectrometry.Experimental evaluation and optimization of structures for lossless ion manipulations for ion mobility spectrometry with time-of-flight mass spectrometryMobility-resolved ion selection in uniform drift field ion mobility spectrometry/mass spectrometry: dynamic switching in structures for lossless ion manipulationsSimulation of electric potentials and ion motion in planar electrode structures for lossless ion manipulations (SLIM)Review on ion mobility spectrometry. Part 1: current instrumentation.Pulsed multiple reaction monitoring approach to enhancing sensitivity of a tandem quadrupole mass spectrometer.Rectangular ion funnel: a new ion funnel interface for structures for lossless ion manipulationsReview on ion mobility spectrometry. Part 2: hyphenated methods and effects of experimental parameters.Ultrasensitive identification of localization variants of modified peptides using ion mobility spectrometry.Tandem ion mobility spectrometry coupled to laser excitation.Development of a New Ion Mobility (Quadrupole) Time-of-Flight Mass Spectrometer.Ion Trapping, Storage, and Ejection in Structures for Lossless Ion ManipulationsBroadscale resolving power performance of a high precision uniform field ion mobility-mass spectrometer.Ion manipulations in structures for lossless ion manipulations (SLIM): computational evaluation of a 90° turn and a switch.Characterization of Traveling Wave Ion Mobility Separations in Structures for Lossless Ion Manipulations.Mobility-Selected Ion Trapping and Enrichment Using Structures for Lossless Ion Manipulations.Pseudorandom sequence modifications for ion mobility orthogonal time-of-flight mass spectrometry.A Structures for Lossless Ion Manipulations (SLIM) Module for Collision Induced DissociationCoulombic effects in ion mobility spectrometry.On-line digestion system for protein characterization and proteome analysis.Lipid and Glycolipid Isomer Analyses Using Ultra-High Resolution Ion Mobility Spectrometry SeparationsAchieving High Resolution Ion Mobility Separations Using Traveling Waves in Compact Multiturn Structures for Lossless Ion Manipulations.Ion mobility spectrometry-mass spectrometry (IMS-MS) of small molecules: separating and assigning structures to ions.Correlation ion mobility spectrometry.Determination of ion mobility collision cross sections for unresolved isomeric mixtures using tandem mass spectrometry and chemometric deconvolution.Compression Ratio Ion Mobility Programming (CRIMP) Accumulation and Compression of Billions of Ions for Ion Mobility-Mass Spectrometry Using Traveling Waves in Structures for Lossless Ion Manipulations (SLIM).
P2860
Q26824685-F252D78C-4D3C-4E97-8E66-6B89AAA6E4DDQ30400672-0B3C25C6-A28C-4E07-B0A7-82E979DB6107Q30814361-14013A0A-930D-4DA0-AF05-65B11F724C66Q31137747-A79E858D-6287-4528-BF32-55FA2039E650Q33346918-0C3DA59A-E50B-46FA-80BC-0D51775BC40FQ33469131-8D7B8001-DA00-41CC-BEAD-38FA30DF6907Q33544747-2CB0934D-25D8-4727-8429-29646550F4FAQ33640981-2BB68528-4FF3-4416-BDAD-15FA5D3DCC13Q33665346-E6B55133-1F7D-4928-B8BD-9368F756C832Q33698046-487DEDF4-A3E1-4E09-BC21-A6B92973C1F2Q33732601-B2DBC61B-ECDF-462B-AB49-99714BBF22E4Q33797917-339AD06E-B3AA-4045-A835-B02DD231FB73Q33944078-AE617BB2-CEAF-4430-BF38-B2DF18FB51F6Q33960532-82FA264B-A69C-4F34-A8D6-62D011629FB1Q33966464-C01E3462-6ACF-4797-A87F-C590BAC84F3FQ34193890-BB9FFA78-3075-4C4C-9268-FEDF27DEF089Q34300391-38B88512-EBBC-4F00-9FA0-3FFF7C306598Q34345000-C5081132-A3E3-4522-AD58-9703D96647D7Q34451523-F2ACB80E-1FAD-4031-A99F-B7B60710F5A3Q34685754-71373611-C7A9-4AE7-8975-FCF1D6C205D4Q34879195-719B0ED1-9E3B-4C7E-BFDD-518421B4BC46Q35091409-4FBEE7B8-FC9F-4F9C-B3C0-4497198A220BQ35106268-EE89C9C3-4255-442D-930D-50F28A628922Q35796203-685129EE-EB43-48A1-B388-93BB4DC9EDA2Q35849260-0D80DC61-CB1A-42C7-993C-A58441456A5AQ35911010-DD009F1C-9218-4522-8B83-57637BA2094CQ36101951-95FB2AD4-498A-42F4-954D-B9502A51D99AQ36103838-D17B7715-DAA0-4624-B4BA-AC4DE1FF4B76Q36566649-6ACF2D6C-B668-4C4B-8809-2F34944058C7Q36692213-01B6BD18-388F-4529-9F4E-06FE790E8365Q36837759-2F70405B-4CAC-4A5A-98E1-6164DF3C0A07Q36984479-0D6E2B59-725D-47BA-BCE5-61B435793B80Q37269612-88A92E9E-1EBD-4148-9499-8D89A8430A87Q37371555-7BD317EC-AD29-4564-B0C1-4B0B8540E8B9Q37631661-C3ECC4ED-9E45-4F82-8802-695EF4AA30ACQ37638960-E4E37DB6-B7B4-4D13-A00C-121F86084A83Q38040005-E74E6315-C169-4139-9960-849319D8FCCFQ39103175-3A5DD922-07A7-46FB-8A74-C300E54402D8Q39379049-EF38809E-A19A-4654-BC6A-96D3D0C1F2AFQ42122107-69EC82F4-D3DD-4C35-BFAB-F80DDC522EAC
P2860
Enhanced ion utilization efficiency using an electrodynamic ion funnel trap as an injection mechanism for ion mobility spectrometry.
description
2008 nî lūn-bûn
@nan
2008 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@ast
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@en
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@nl
type
label
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@ast
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@en
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@nl
prefLabel
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@ast
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@en
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@nl
P2093
P2860
P356
P1433
P1476
Enhanced ion utilization effic ...... for ion mobility spectrometry.
@en
P2093
Brian H Clowers
David C Prior
Mikhail E Belov
William F Danielson
Yehia M Ibrahim
P2860
P304
P356
10.1021/AC701648P
P407
P577
2008-01-01T00:00:00Z