Miniature and Fieldable Mass Spectrometers: Recent Advances
about
Pancreatic Cancer Surgical Resection Margins: Molecular Assessment by Mass Spectrometry ImagingColorimetric Sensor Arrays for the Detection and Identification of Chemical Weapons and Explosives.Rapid sample classification using an open port sampling interface coupled with liquid introduction atmospheric pressure ionization mass spectrometry.An aerodynamic assisted miniature mass spectrometer for enhanced volatile sample analysis.Analytical Validation of a Portable Mass Spectrometer Featuring Interchangeable, Ambient Ionization Sources for High Throughput Forensic Evidence Screening.Ionization Capabilities of Hydronium Ions and High Electric Fields Produced by Atmospheric Pressure Corona DischargeSolid Sampling with a Diode Laser for Portable Ambient Mass Spectrometry.Solid-phase microextraction low temperature plasma mass spectrometry for the direct and rapid analysis of chemical warfare simulants in complex mixtures.An Integrated Microfabricated Chip with Double Functions as an Ion Source and Air Pump Based on LIGA Technology.Unique capabilities of AC frequency scanning and its implementation on a Mars Organic Molecule Analyzer linear ion trap.Rapid UHPLC-HR-QTOFMS and SRM Strategy for the Identification and Quantification of Minor Spinacetin Derivatives in Spinach.Remote detection of explosives using Field Asymmetric Ion Mobility Spectrometer installed on multicopter.Mass spectrometry for the detection of bioterrorism agents: from environmental to clinical applications.Mass spectrometry methods for predicting antibiotic resistance.Air quality measurements-From rubber bands to tapping the rainbow.Ambient Ionization Mass Spectrometry Measurement of Aminotransferase Activity.On-line reaction monitoring by mass spectrometry, modern approaches for the analysis of chemical reactions.Computer simulations of a new toroidal-cylindrical ion trap mass analyzer.Direct Analysis and Quantification of Metaldehyde in Water using Reactive Paper Spray Mass Spectrometry.A real time metabolomic profiling approach to detecting fish fraud using rapid evaporative ionisation mass spectrometry.Feasibility of coupling a thermal/optical carbon analyzer to a quadrupole mass spectrometer for enhanced PM2.5 speciation.Quantitative analysis of biofluid spots by coated blade spray mass spectrometry, a new approach to rapid screening.Proof of Concept Coded Aperture Miniature Mass Spectrometer Using a Cycloidal Sector Mass Analyzer, a Carbon Nanotube (CNT) Field Emission Electron Ionization Source, and an Array Detector.Rapid mass spectrometry analysis of a rectilinear ion trap by continuous secular frequency scanning.Detection and imaging of thermochromic ink compounds in erasable pens using desorption electrospray ionization mass spectrometry.Characterization and application of a self-aspirating electrospray source with pneumatic-assisted ionization.Development of a low power miniature linear ion trap mass spectrometer with extended mass range.Simulation of the influence of constant uniform magnetic field on a miniature LIT mass spectrometer.Towards on-site analysis of complex matrices by solid-phase microextraction-transmission mode coupled to a portable mass spectrometer via direct analysis in real time.A Miniaturized Linear Wire Ion Trap with Electron Ionization and Single Photon Ionization Sources.High pressure mass spectrometry of volatile organic compounds with ambient air buffer gas.Novel control modes to improve the performance of rectilinear ion trap mass spectrometer with dual pressure chambers.Multigenerational Broadband Collision-Induced Dissociation of Precursor Ions in a Linear Quadrupole Ion Trap.Linear mass scans in quadrupole ion traps using the inverse Mathieu q scan.Development of a suitcase time-of-flight mass spectrometer for in situ fault diagnosis of SF6 -insulated switchgear by detection of decomposition products.Experimental Characterization of Secular Frequency Scanning in Ion Trap Mass Spectrometers.Sniffing Entrapped Humans with Sensor Arrays.A Review of the Emerging Field of Underwater Mass SpectrometryTriboelectric Nanogenerator (TENG) Mass Spectrometry of Falsified AntimalarialsImproved detection sensitivity for heavy trace elements using a miniature laser ablation ionisation mass spectrometer
P2860
Q28554008-71A361E7-6DA4-4571-8699-C3AB4D8BA9DBQ29248085-A942FE05-FC8E-496F-AB6F-4349162323DBQ30490350-AE35B570-2F28-43D6-9CC3-AEE4FF90B3BAQ33468336-BCC492E6-1857-4185-82F7-C0D5FADBD183Q33469477-701C777D-50CE-4BC7-8E65-B49FB2D72AA6Q33470700-FB3EE00E-0888-4A9C-95E6-C97D79940F36Q33470739-78941ED1-A56F-41F1-8936-75139D1E392EQ35962223-E00B0AEF-0923-4C1A-AB79-ACE35EE3E015Q37632534-32D8E86C-9ED1-45BE-9A36-678D7E8249CFQ38430980-C8D0EF3D-1697-497D-BB72-CA1DD58C2F79Q38610827-4C88EE2B-4EC3-4B0E-A1F1-CCE94417AC56Q38649775-68F82548-D314-4A0D-9318-570520A92D71Q38766027-DC4A368E-1594-4CD8-AB1E-E9CAA45D1941Q38867552-9A8F0098-3033-4FE5-B47B-5E06AC0EB641Q38883499-B80BED16-15AC-4FD1-B7BE-D4DC960B0F59Q38987720-3371BAD4-42B8-4F07-9970-4DE7E6B452C6Q39382504-FD6ED46A-04BB-45D9-A197-161CE7EC7CD5Q39511018-95AB31E0-21FD-4F07-A3A1-36EEFBCBC937Q41523630-E47CA40F-A5AD-4F90-81AD-563D389FC98AQ46258923-7F26A085-6BDB-473D-94CF-BA6673B2725EQ46914734-AF253A3E-F743-4A4A-BC91-6390D0B053ACQ47135581-28BB5970-F605-4817-A503-BFBAF5B81C38Q47427365-F33F661D-737D-4BB1-9928-5F7DAA8F6060Q48283769-FE516E1C-221A-4115-B6B1-C69CB4FE3DA4Q48331462-1B889430-3063-45C1-9947-AF22B25D1C47Q48365079-7E1853CB-C3AE-46B1-A37A-F4EF2F355C8CQ49388718-845996A8-7F1C-46E3-8907-AF2E4CC2D17BQ49892892-A00A5760-B15B-4518-A2E7-39BCD63B00CFQ50526140-71639135-CBF9-4A2D-AC5A-0CA2D7D5A8C5Q51022654-0601DB40-D025-4D6C-BEFE-849A83128CF6Q51136859-AF653D24-FD67-4D2D-BF8F-D5BD1C75D2AEQ52846090-CFAD654A-7ED0-4EA5-8751-136370D3F56FQ52853928-43B2976C-976B-44AD-9B31-4882A68009C3Q52982750-D2D5E8A4-0D6E-453A-94FE-357E4DBB2C77Q53032780-C285854E-6F3F-438F-B070-4F15B5F8C770Q53201868-A46A5B74-3CFB-4080-9EC4-548C0856F04BQ55052306-958F4FF7-3F0D-4323-8433-CA2406C721C4Q57900858-AF45E828-3442-4E3E-8AD7-6D65553B4153Q58784635-C8D6D61B-0022-4C18-B0F5-81F5C02C85E7Q58921135-EF44FD8B-39C8-467B-9005-05C809FBA67B
P2860
Miniature and Fieldable Mass Spectrometers: Recent Advances
description
2016 nî lūn-bûn
@nan
2016 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2016 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
name
Miniature and Fieldable Mass Spectrometers: Recent Advances
@ast
Miniature and Fieldable Mass Spectrometers: Recent Advances
@en
type
label
Miniature and Fieldable Mass Spectrometers: Recent Advances
@ast
Miniature and Fieldable Mass Spectrometers: Recent Advances
@en
prefLabel
Miniature and Fieldable Mass Spectrometers: Recent Advances
@ast
Miniature and Fieldable Mass Spectrometers: Recent Advances
@en
P2093
P2860
P3181
P1433
P1476
Miniature and Fieldable Mass Spectrometers: Recent Advances
@en
P2093
Christopher J Pulliam
R Graham Cooks
Zheng Ouyang
P2860
P3181
P356
10.1021/ACS.ANALCHEM.5B03070
P407
P577
2015-10-21T00:00:00Z