nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
Analysis of Malathion pesticide residues in rice samples using ultrasound-assisted emulsification-microextraction coupled to UV photoionization source ion mobility spectrometry
|
Kalhor, Hamideh |
|
2016 |
|
4 |
p. 189-195 |
artikel |
2 |
Analysis of organic gunshot residue permeation through a model skin membrane using ion mobility spectrometry
|
Moran, Jordan |
|
2013 |
|
4 |
p. 247-258 |
artikel |
3 |
An NO+ reactant ion source for ion mobility spectrometry
|
Darzi, Maedeh |
|
2013 |
|
4 |
p. 275-280 |
artikel |
4 |
A simulation model study of the coupled field in the IMS drift tube
|
Han, Fenglei |
|
2016 |
|
4 |
p. 219-226 |
artikel |
5 |
Characterization of propofol in human breath of patients undergoing anesthesia
|
Kreuder, A.-E. |
|
2011 |
|
4 |
p. 167-175 |
artikel |
6 |
Clearance of biogenic amines from saliva following the consumption of tuna in water and in oil
|
Barnard, Geoff |
|
2011 |
|
4 |
p. 207-211 |
artikel |
7 |
Comparative measurements of toxic industrial compounds with a differential mobility spectrometer and a time of flight ion mobility spectrometer
|
Ungethüm, Bert |
|
2009 |
|
4 |
p. 131-137 |
artikel |
8 |
Corona discharge ion mobility spectrometry for the determination of theophylline and guaifenesin in human serum
|
Sheibani, A. |
|
2013 |
|
4 |
p. 259-263 |
artikel |
9 |
Correlation analysis on data sets to detect infectious agents in the airways by ion mobility spectrometry of exhaled breath
|
Maddula, Sasidhar |
|
2011 |
|
4 |
p. 197-206 |
artikel |
10 |
Current status and need for standards in ion mobility spectrometry
|
Hauck, Brian C. |
|
2018 |
|
4 |
p. 105-123 |
artikel |
11 |
Detection of infectious agents in the airways by ion mobility spectrometry of exhaled breath
|
Rabis, T. |
|
2011 |
|
4 |
p. 187-195 |
artikel |
12 |
Determination of volatile organic compounds by solid-phase microextraction—gas chromatography-differential mobility spectrometry
|
Telgheder, Ursula |
|
2009 |
|
4 |
p. 123-130 |
artikel |
13 |
Development of a device to measure MCC-IMS peaks of pure analytes (IMS-BOX)
|
Kreuer, S. |
|
2013 |
|
4 |
p. 281-286 |
artikel |
14 |
HovaCAL®—a generator for multi-component humid calibration gases
|
Vautz, Wolfgang |
|
2009 |
|
4 |
p. 139-147 |
artikel |
15 |
Improving the analytical performance of ion mobility spectrometer using a non-radioactive electron source
|
Heptner, Andre |
|
2016 |
|
4 |
p. 175-182 |
artikel |
16 |
IR-MALDI ion mobility spectrometry: physical source characterization and application as HPLC detector
|
Villatoro, José |
|
2016 |
|
4 |
p. 197-207 |
artikel |
17 |
MCC/IMS as potential noninvasive technique in the diagnosis of patients with COPD with and without alpha 1-antitrypsin deficiency
|
Koczulla, Rembert |
|
2011 |
|
4 |
p. 177-185 |
artikel |
18 |
Medical applications of ion mobility spectrometry
|
Baumbach, Jorg Ingo |
|
2011 |
|
4 |
p. 137 |
artikel |
19 |
Metabolic differences among melanoma and two prostate cancer cell lines by electrospray ion mobility mass spectrometry
|
Kaplan, Kimberly |
|
2011 |
|
4 |
p. 151-158 |
artikel |
20 |
Mobilities of polyatomic molecular ions in He gas
|
Takaya, Kazunari |
|
2016 |
|
4 |
p. 183-187 |
artikel |
21 |
Model calculation for ion mobility in air using the MOBCAL program
|
Takaya, Kazunari |
|
2016 |
|
4 |
p. 227-232 |
artikel |
22 |
Modular and reconfigurable gas chromatography/differential mobility spectrometry (GC/DMS) package for detection of volatile organic compounds (VOCs)
|
Anishchenko, Ilya M. |
|
2018 |
|
4 |
p. 125-136 |
artikel |
23 |
Monte Carlo simulation of ion transport in non-linear ion mobility spectrometry
|
Xu, Jun |
|
2009 |
|
4 |
p. 149-156 |
artikel |
24 |
Optimization design of drift tube for ion mobility spectrometer based on simulation of drift electric field
|
Liu, Xin |
|
2012 |
|
4 |
p. 231-237 |
artikel |
25 |
Quantitative ion mobility spectroscopy based on molecular collision rate theory
|
Swanson, David C. |
|
2013 |
|
4 |
p. 265-274 |
artikel |
26 |
Rapid analysis of N-methylpyrrolidine in cefepime with thermal desorption ion mobility spectrometry
|
Reynolds, James C. |
|
2016 |
|
4 |
p. 209-217 |
artikel |
27 |
Results of a transient simulation of a drift tube ion mobility spectrometer considering charge repulsion, ion loss at metallic surfaces and ion generation
|
Langejuergen, Jens |
|
2012 |
|
4 |
p. 247-255 |
artikel |
28 |
Selective sampling with direct ion mobility spectrometric detection for explosives analysis
|
Harvey, Scott D. |
|
2009 |
|
4 |
p. 115-121 |
artikel |
29 |
Significant different volatile biomarker during bronchoscopic ion mobility spectrometry investigation of patients suffering lung carcinoma
|
Baumbach, J. I. |
|
2011 |
|
4 |
p. 159-166 |
artikel |
30 |
Statistical and bioinformatical methods to differentiate chronic obstructive pulmonary disease (COPD) including lung cancer from healthy control by breath analysis using ion mobility spectrometry
|
Westhoff, M. |
|
2011 |
|
4 |
p. 139-149 |
artikel |
31 |
Stir-bar sorptive extraction and TDS-IMS for the detection of pesticides in aqueous samples
|
Zscheppank, C. |
|
2012 |
|
4 |
p. 257-264 |
artikel |
32 |
Towards a miniaturized non-radioactive electron emitter with proximity focusing
|
Cochems, Philipp |
|
2012 |
|
4 |
p. 223-229 |
artikel |
33 |
Transport of ions through tubes in a stream of flowing gas
|
Puton, Jarosław |
|
2012 |
|
4 |
p. 239-246 |
artikel |