Department of Chemistry of Ions and Clusters
E-mail: patrik.spaneljh-inst.cas.cz
Phone: +420 266053239, +420 266053084
Room No: 232, 216
Externally maintained publication lists:
· ASEP
· PUBMED
updated January 2018.
No |
Reference |
257 |
Pentane and other volatile organic
compounds, including carboxylic acids, in the exhaled breath of patients with
Crohn’s disease and ulcerative colitis. Kseniya Dryahina, David Smith, Martin
Bortlík, Naděžda Machková, Milan Lukáš, Patrik
Španěl J. Breath Res. 12 (2018) 016002 10.1088/1752-7163/aa8468 |
256 |
Ion
chemistry at elevated ion-molecule interaction energies in a selected ion
flow-drift tube: reactions of H3O+, NO+ and
O2+ with saturated aliphatic ketones. Anatolii
Spesyvyi, David Smith and Patrik Španěl Phys.Chem.Chem.Phys.
19 (2017) 31714 10.1039/c7cp05795d |
255 |
On the importance of accurate
quantification of individual volatile metabolites in exhaled breath. David Smith, Patrik Španěl. J. Breath Res. 11 (2017) 047106 10.1088/1752-7163/aa7ab5 |
254 |
Acetic acid is elevated in the
exhaled breath of cystic fibrosis patients. Patrik Španěl, Kristýna Sovová, Kseniya
Dryahina, Tereza Doušová,
Pavel Dřevínek, David Smith. Journal of Cystic Fibrosis 16 (2017) e17–e18 10.1016/j.jcf.2017.02.001 |
253 |
Evaluation of peroxidative
stress of cancer cells in vitro by real-time quantification of volatile
aldehydes in culture headspace spectrometry. Violetta
Shestivska, Abigail V. Rutter, Josep
Sulé‐Suso, David
Smith, Patrik Španěl. Rapid Commun.
Mass Spectrom. 2017,
31, 1344–1352 10.1002/rcm.7911 |
252 |
Selected ion flow tube study of
the reactions of H3O+and NO+ with a series of primary alcohols in the presence of
water vapour in support of selected ion flow tube
mass spectrometry. Španěl P, Žabka J, Zymak I and Smith D. Rapid Commun.
Mass Spectrom. 2017,
31, 437–446 10.1002/rcm.7811 |
251 |
Selected Ion Flow Tube (SIFT) Applications
in Mass Spectrometry. In: Lindon, J.C., Tranter, G.E.,
and Koppenaal, D.W. (eds.) The Encyclopedia of
Spectroscopy and Spectrometry, 3rd edition vol. 4, pp. 56-68. (2016) Oxford:
Academic Press. ISBN
:978-0128032244 |
250 |
Spectroscopic investigations of
high-energy-density plasma transformations in a simulated early reducing
atmosphere containing methane, nitrogen and water |
249 |
A pilot study of ion - molecule
reactions at temperatures relevant to the atmosphere of Titan |
248 |
Selected ion flow tube mass
spectrometry analyses of laser decomposition products of a range of
explosives and ballistic propellants |
247 |
Differentiation of pulmonary
bacterial pathogens in cystic fibrosis by volatile metabolites emitted by
their in vitro cultures: Pseudomonas aeruginosa, Staphylococcus
aureus, Stenotrophomonas maltophilia and
the Burkholderia cepacia complex |
246 |
Do linear logistic model analyses
of volatile biomarkers in exhaled breath of cystic fibrosis patients reliably
indicate Pseudomonas aeruginosa infection? |
245 |
In-tube collision-induced
dissociation for selected ion flow-drift tube mass spectrometry, SIFDT-MS: a
case study of NO+ reactions with isomeric monoterpenes |
244 |
Status of selected ion flow tube
MS: accomplishments and challenges in breath analysis and other areas |
243 |
Breath concentration of acetic
acid vapour is elevated in patients with cystic
fibrosis David Smith, Kristýna
Sovová, Kseniya Dryahina, Tereza
Doušová, Pavel Dřevínek
and Patrik Španěl |
242 |
SIFT-MS quantification of several
breath biomarkers of inflammatory bowel disease, IBD: A detailed study of the
ion chemistry |
241 |
Selected Ion Flow-Drift Tube Mass Spectrometry:
Quantification of Volatile Compounds in Air and Breath |
240 |
Mass Spectrometric Analysis of Exhaled Breath for the
Identification of Volatile Organic Compound Biomarkers in Esophageal and
Gastric Adenocarcinoma |
239 |
Exhaled breath hydrogen cyanide as a marker of early
Pseudomonas aeruginosa infection in children with cystic fibrosis |
238 |
Increase of methanol in exhaled breath quantified by SIFT-MS
following aspartame ingestion |
237 |
Product ion distributions for the reactions of NO+
with some N-containing and O-containing heterocyclic compounds obtained using
SRI-TOF-MS |
236 |
Determination of residence times of ions in a resistive
glass selected ion flow-drift tube using the Hadamard transformation |
235 |
Direct detection and quantification of malondialdehyde vapour in humid air using selected ion flow tube mass
spectrometry supported by gas chromatography/mass spectrometry |
234 |
The in vitro identification and quantification of volatile
biomarkers released by cystic fibrosis pathogens. F. J. Gilchrist, P.
Španěl D. Smith and W. Lenney |
233 |
Release of toxic ammonia and volatile organic compounds by
heated cannabis and their relation to tetrahydrocannabinol content. David
Smith, Roger Bloor, Claire George, Andriy Pysanenko and Patrik Španěl |
232 |
SIFT-MS and FA-MS methods for ambient gas phase analysis:
developments and applications in the UK. David Smith and Patrik Španěl |
231 |
The SIFT and FALP techniques; applications
to ionic and electronic reactions studies and their evolution to the SIFT-MS
and FA-MS analytical methods. David Smith and Patrik Španěl |
230 |
Pitfalls in the analysis of volatile breath biomarkers:
suggested solutions and SIFT–MS quantification of single metabolites. David
Smith and Patrik Španěl |
229 |
Quantitative analysis of volatile metabolites released in
vitro by bacteria of the genus Stenotrophomonas for identification
of breath biomarkers of respiratory infection in cystic fibrosis. Violetta Shestivska, Kseniya
Dryahina, Jaroslav Nunvář, Kristýna
Sovová, Dana Elhottová, Alexandr Nemec, David Smith and
Patrik Španěl |
228 |
Product ion distributions for the reactions of NO+ with some physiologically significant volatile organosulfur and organoselenium compounds obtained using a selective reagent ionization time-of-flight mass spectrometer Paweł Mochalski,
Karl Unterkofler, Patrik Španěl, David Smith,
Anton Amann |
227 |
Quantification by SIFT-MS of volatile compounds emitted by Aspergillus
fumigatus cultures and in co-culture with Pseudomonas aeruginosa,
Staphylococcus aureus and Streptococcus pneumoniae |
226 |
Counting
cell number in situ by quantification of dimethyl sulphide in culture
headspace |
225 |
Reactions
of the SIFT-MS reagent ions H3O+ and NO+
with a series of volatile aldehydes of biogenic significance |
224 |
Exhaled
breath concentrations of acetic acid vapour in gastro-esophageal
reflux disease |
223 |
A selected
ion flow tube study of the ion molecule association reactions of protonated
(MH+) , nitrosonated (MNO+)
and dehydroxidated (M-OH)+ carboxylic acids (M) with H2O |
222 |
Product ion
distributions for the reactions of NO+ with some physiologically
significant aldehydes obtained using a SRI-TOF-MS instrument |
221 |
Breath
analysis of ammonia, volatile organic compounds and deuterated water vapour
in chronic kidney disease and during dialysis |
220 |
Mass spectrometry for real-time quantitative breath analysis |
219 |
Quantification by SIFT-MS of volatile compounds emitted by in
vitro cultures of S. aureus, S. pneumoniae and H.
influenzae isolated from patients with respiratory diseases |
218 |
Quantification of octanol–water partition coefficients of
several aldehydes in a bubble column using selected ion flow tube mass
spectrometry |
217 |
Effects of dietary nutrients on volatile breath metabolites |
216 |
Is Hydrogen Cyanide a Marker of Burkholderia cepacia
Complex? |
215 |
Hydrogen cyanide, a volatile biomarker of
Pseudomonas aeruginosa infection |
214 |
On the features, successes and challenges of
selected ion flow tube mass spectrometry |
213 |
Real Time Detection of Aroma Compounds in
Meat and Meat Products by SIFT-MS and Comparison to Conventional Techniques
(SPME-GC-MS) |
212 |
Breath Analysis and the Measurement of Total
Body Water Using Isotope Dilution – Applications in the Dialysis Clinic |
211 |
SIFT Applications in Mass Spectrometry |
210 |
SIFT-MS Analysis of Nose-Exhaled Breath;
Mouth Contamination and the Influence of Exercise |
209 |
Minimising the Effects of
Isobaric Product Ions in SIFT-MS Quantification of Acetaldehyde, Dimethyl Sulphide and Carbon Dioxide |
208 |
Advances in On-line Absolute Trace Gas
Analysis by SIFT-MS Current Analytical Chemistry, 2013, 9, 525-539 10.2174/15734110113099990017 |
207 |
Recent SIFT-MS Studies of Volatile Compounds
in Physiology, Medicine and Cell Biology |
206 |
Quantification of pentane in exhaled breath,
a potential biomarker of bowel disease, using selected ion flow tube mass
spectrometry |
205 |
Real time monitoring of population dynamics
in concurrent bacterial growth using SIFT-MS quantification of volatile
metabolites |
204 |
Selected Ion Flow Tube Mass Spectrometry
Analysis of Exhaled Breath for Volatile Organic Compound Profiling of Esophago-Gastric Cancer |
203 |
Hydrogen cyanide concentrations in the breath of adult cystic fibrosis patients with and without Pseudomonas aeruginosa infection |
202 |
Selected Ion Flow Tube Mass Spectrometry
Analysis of Volatile Metabolites in Urine Headspace for the Profiling of
Gastro-Esophageal Cancer |
201 |
A quantitative study of the influence of
inhaled compounds on their concentrations in exhaled breath |
200 |
Quantification by SIFT-MS of acetaldehyde
released by lung cells in a 3D model |
199 |
Selected Ion Flow Tube-MS Analysis of Headspace Vapor from Gastric Content for the Diagnosis of
Gastro-Esophageal Cancer |
198 |
Quantification of hydrogen cyanide and 2-aminoacetophenone in the headspace of Pseudomonas aeruginosa cultured under biofilm and planktonic conditions |
197 |
Variability in the concentrations of volatile
metabolites emitted by genotypically different strains of Pseudomonas
aeruginosa |
196 |
Analysis of volatile compounds in the breath
of patients with inflammatory bowel diseases [Analýza
těkavých plynů ve vydechovaném vzduchu u nemocných s idiopatickými střevními záněty] |
195 |
Injection of deuterated water into the pulmonary/alveolar circulation; measurement of HDO in exhaled breath and implications to breath analysis Boon K Tan, Simon J Davies, Patrik
Španěl and David Smith |
194 |
An investigation of suitable bag materials
for the collection and storage of breath samples containing hydrogen cyanide |
193 |
Rapid detection of lipid oxidation in beef
muscle packed under modified atmosphere by measuring volatile organic
compounds using SIFT-MS |
192 |
A selected ion flow tube study of the
reactions of H3O+, NO+ and O2+•
with seven isomers of hexanol in support of SIFT-MS |
191 |
The Potential for use of Breath Analysis in
Monitoring Diabetes Mellitus |
190 |
Real-Time Quantification of Traces of
Biogenic Volatile Selenium Compounds in Humid Air by Selected Ion Flow Tube
Mass Spectrometry |
189 |
Combining Fourier transform nuclear
quadrupole resonance (FT-NQR) spectroscopy and mass spectrometry (MS) to
study the electronic structure of titanocene dichlorides |
188 |
Variation in hydrogen cyanide production between
different strains of Pseudomonas aeruginosa |
187 |
Comment on ‘Influences of mixed expiratory
sampling parameters on exhaled volatile organic compound concentrations’ |
186 |
Quantification of methyl thiocyanate in the
headspace of Pseudomonas aeruginosa cultures and in the breath of cystic
fibrosis patients by selected ion flow tube mass spectrometry |
185 |
Volatile compounds in health and disease |
184 |
Time-resolved selected ion flow tube mass spectrometric quantification of the volatile
compounds generated by E. coli JM109 cultured in two different media |
183 |
Breath acetone concentration; biological variability and the influence of diet |
182 |
On-line, real time monitoring of exhaled
trace gases by SIFT-MS in the perioperative setting: a feasibility study |
181 |
Direct, rapid quantitative analyses of BVOCs
using SIFT-MS and PTRMS obviating sample collection |
180 |
Can volatile compounds
in exhaled breath be used to monitor control in diabetes mellitus? |
179 |
Selected ion flow tube, SIFT, studies of the
reactions of H3O+, NO+ and O2+
with some biologically active isobaric compounds in preparation for SIFT-MS
analyses |
178 |
Spektroskopie tabákového
kouře |
177 |
Ambient analysis of trace compounds in
gaseous media by SIFT-MS |
176 |
SPME-GC-MS versus Selected Ion Flow Tube Mass
Spectrometry (SIFT-MS) Analyses for the Study of Volatile Compound Generation
and Oxidation Status during Dry Fermented Sausage Processing |
175 |
HNC/HCN Ratio in Acetonitrile, Formamide, and BrCN Discharge |
174 |
Laser Ablation of FOX-7: Proposed Mechanism
of Decomposition |
173 |
Determination of the Deuterium Abundances in
Water from 156 to 10,000 ppm by SIFT-MS J. Am. Soc. Mass Spectrom. 22 (2011) 179-186 doi:10.1007/s13361-010-0019-2 |
172 |
Progress in SIFT-MS: breath analysis and
other applications Mass Spectrometry Reviews 30 (2011) 236-267 doi:10.1002/mas.20303 |
171 |
Selected ion flow tube (SIFT) studies of the
reactions of H3O+, NO+ and O2+•
with six volatile phytogenic esters |
170 |
Selected ion flow tube mass spectrometry,
SIFT-MS; new horizons in real time air and breath analysis |
169 |
Plasma Volume, Albumin, and Fluid Status in Peritoneal Dialysis Patients |
168 |
Selected Ion Flow Tube-Mass Spectrometry for
Absolute Quantification of Aroma Compounds in the Headspace of Dry Fermented
Sausages Patrik Španěl |
167 |
A study of the composition of the products of
laser-induced breakdown of hexogen, octogen, pentrite and trinitrotoluene using selected ion flow tube
mass spectrometry and UV-Vis spectrometry |
166 |
Advantages of breath testing for the early
diagnosis of lung cancer |
165 |
Quantification of methane in humid air and exhaled
breath using selected ion flow tube mass spectrometry |
164 |
Dynamics of Formation of Products D2CN+,
DCN+, and CD3+ in the Reaction of N+
with CD4: A Crossed-Beam and Theoretical Study† |
163 |
Dispersal kinetics of deuterated water in the lungs and airways following mouth inhalation: real-time breath analysis by
flowing afterglow mass spectrometry (FA-MS) |
162 |
Kinetics of ethanol decay in mouth- and
nose-exhaled breath measured on-line by selected ion flow tube mass
spectrometry following varying doses of alcohol |
161 |
Isoprene levels in the exhaled breath of 200
healthy pupils within the age range 7–18 years studied using SIFT-MS |
160 |
Combining Near-Subject Absolute and Relative
Measures of Longitudinal Hydration in Hemodialysis |
159 |
Quantification of acetaldehyde and carbon
dioxide in the headspace of malignant and non-malignant lung cells in vitro
by SIFT-MS |
158 |
Quantification of methylamine in the
headspace of ethanol of agricultural origin by selected ion flow tube mass
spectrometry |
157 |
Analysis of the isobaric compounds propanol,
acetic acid and methyl formate in humid air and
breath by selected ion flow tube mass spectrometry, SIFT-MS |
156 |
Concentrations of some metabolites in the
breath of healthy children aged 7–18 years measured using selected ion flow
tube mass spectrometry (SIFT-MS) |
155 |
The quantification of carbon dioxide in humid
air and exhaled breath by selected ion flow tube mass spectrometry |
154 |
Acetone, butanone, pentanone,
hexanone and heptanone in
the headspace of aqueous solution and urine studied by selected ion flow tube
mass spectrometry |
153 |
Ionic diffusion and mass discrimination effects in the new generation of short flow tube SIFT-MS instruments |
152 |
Influence of weakly bound adduct ions on breath
trace gas analysis by selected ion flow tube mass spectrometry (SIFT-MS) |
151 |
SIFT-MS Analysis of Molecular Gas Mixtures
Exposed to High-Power Laser Plasmas: Laboratory Simulation of
High-Energy-Density Events in Early Earth’s Atmospheres |
150 |
Spectroscopic Investigations of High-Power Laser Sparks in Gas Mixtures Containing Methane: A Laboratory Model of Energetic Events in Strongly Reduced Planetary Atmospheres |
149 |
A study of thermal decomposition and
combustion products of disposable polyethylene terephthalate (PET) plastic
using high resolution Fourier transform infrared spectroscopy, selected ion
flow tube mass spectrometry and gas chromatography mass spectrometry |
148 |
A study of sulfur-containing compounds in
mouth- and nose-exhaled breath and in the oral cavity using selected ion flow
tube mass spectrometry |
147 |
Ammonia release from heated ‘street’ cannabis
leaf and its potential toxic effects on cannabis users |
146 |
Selected ion flow tube mass spectrometry of exhaled
breath condensate headspace |
145 |
Quantification of trace levels of the potential cancer biomarkers formaldehyde, acetaldehyde and propanol in breath by SIFT-MS Patrik Španěl and David Smith |
144 |
Analysis of breath, exhaled via the mouth and
nose, and the air in the oral cavity |
143 |
Selected ion flow tube mass spectrometry of
3-hydroxybutyric acid, acetone and other ketones in the headspace of aqueous
solution and urine |
142 |
A non-invasive, on-line deuterium dilution
technique for the measurement of total body water in haemodialysis
patients |
141 |
Experimental and theoretical investigation of
electron attachment to SF5Cl |
140 |
Compounds enhanced in a mass spectrometric
profile of smokers’ exhaled breath versus non-smokers as determined in a
pilot study using PTR-MS |
139 |
A selected ion flow tube mass spectrometry
study of ammonia in mouth- and nose-exhaled breath and in the oral cavity |
138 |
An exploratory comparative study of volatile
compounds in exhaled breath and emitted by skin using selected ion flow tube
mass spectrometry |
137 |
Selected ion flow tube mass spectrometry for
on-line trace gas analysis in biology and medicine |
136 |
The concentration distributions of some
metabolites in the exhaled breath of young adults |
135 |
Volatile metabolites in the exhaled breath of
healthy volunteers: their levels and distributions |
134 |
Acetone, ammonia and hydrogen cyanide in
exhaled breath of several volunteers aged 4–83 years |
133 |
Microwave plasma ion sources for selected ion
flow tube mass spectrometry: Optimizing their performance and detection
limits for trace gas analysis |
132 |
The challenge of breath analysis for clinical
diagnosis and therapeutic monitoring |
131 |
Breath Analysis: The approach towards
clinical applications |
130 |
Quantification of breath carbon disulphide and acetone following a single dose of
disulfiram (Antabuse) using selected ion flow tube mass spectrometry
(SIFT-MS) |
129 |
Increase of acetone emitted by urine in
relation to ovulation |
128 |
The increase of breath ammonia induced by niacin ingestion quantified by selected ion flow tube mass spectrometry |
127 |
A longitudinal study methanol in the exhaled
breath of 30 subjects using selected ion flow tube mass spectrometry, SIFT-MS
|
126 |
A longitudinal study of ammonia, acetone and
propanol in the exhaled breath of 30 subjects using selected ion flow tube
mass spectrometry, SIFT-MS |
125 |
A general method for the calculation of
absolute trace gas concentrations in air and breath from selected ion flow
tube mass spectrometry data |
124 |
Combined use of gas chromatography and
selected ion flow tube mass spectrometry for absolute trace gas quantification |
123 |
Generation
of volatile compounds on mouth exposure to urea and sucrose: implications for
exhaled breath analysis Physiological Measurement 27 (2006) N7-N17 |
122 |
A longitudinal study of ethanol and
acetaldehyde in the exhaled breath of healthy volunteers using selected-ion
flow-tube mass spectrometry |
121 |
A
longitudinal study of breath isoprene in healthy volunteers using selected
ion flow tube mass spectrometry (SIFT-MS) |
120 |
Coordinated
FA-MS and SIFT-MS analyses of breath following ingestion of D2O and ethanol;
total body water, dispersal kinetics and ethanol metabolism. |
119 |
Bronchoalveolar
lavage examined by solid phase microextraction, gas chromatography–mass
spectrometry and selected ion flow tube mass spectrometry. Journal of Microbiological Methods 65 (2006) 76– 86. |
118 |
Influence
of convection on the diffusive transport and sieving of water and small
solutes across the peritoneal membrane. Journal of the American Society Of Nephrology, 16 (2005): 437-443. |
117 |
Detection
of volatile compounds emitted by Pseudomonas aeruginosa using selected ion
flow tube mass spectrometry Pediatric Pulmonology, 39 (2005) 452-456. |
116 |
A
convenient method for calculation of ionic diffusion coefficients for
accurate selected ion flow tube mass spectrometry, SIFT-MS. International Journal of Mass Spectrometry 244 (2005) 148–154. |
115 |
The
combined use of SIFT-MS and FA-MS to investigate first-pass metabolism of
ethanol. in A. Amann, D. Smith (Eds.), Breath Analysis for Clinical Diagnosis and Therapeutic Monitoring, World Scientific, Singapore, 2005. pp. 479-490. |
114 |
Flowing
afterglow mass spectrometry (FA-MS) for the determination of the deuterium
abundance in breath water vapour and aqueous liquid headspace. in A. Amann, D. Smith (Eds.), Breath Analysis for Clinical Diagnosis and Therapeutic Monitoring, World Scientific, Singapore, 2005. pp. 439-455. |
113 |
Applications
of selected ion flow tube mass spectrometry, SIFT-MS, in addiction research. |
112 |
Detection of H. Pylori infection by
breath ammonia following urea ingestion. |
111 |
Analysis
of breath using SIFT-MS: a comparison of the breath composition of healthy
volunteers and seriously-ill ICU patients. |
110 |
Selected
ion flow tube mass spectrometry, SIFT-MS, for on-line trace gas analysis of
breath. |
109 |
Selected
ion flow tube mass spectrometry (SIFT-MS) for on-line trace gas analysis. |
108 |
Longitudinal
measurements of total body water and body composition in healthy volunteers
by online breath deuterium measurement and other near-subject methods. |
107 |
A
selected ion flow tube study of the reactions of H3O+, NO+ and O2+•with some
phenols, phenyl alcohols and cyclic carbonyl compounds in support of SIFT-MS
and PTR-MS. International Journal of Mass Spectrometry 239 (2004) 139-146. |
106 |
On-line
analysis of diesel engine exhaust gases by selected ion flow tube mass
spectrometry. |
105 |
Theoretical
Study of Diffusion of Ions Important for Breath Analysis by the SIFT-MS
Method. |
104 |
A selected ion flow tube, SIFT, study of the ion chemistry
of H3O+, NO+ and O2+• ions |
103 |
Quantification of hydrogen cyanide in humid air by selected
ion flow tube mass |
102 |
A selected ion flow tube, SIFT, study of the reactions of
H3O+, NO+ and O2+ ions with |
101 |
A directly coupled monolithic rectangular resonator forming
a robust microwave plasma ion |
100 |
Selected ion flow tube, SIFT, studies of the reactions of
H3O+, NO+ and O2+ with |
99 |
Selected ion flow tube mass spectrometry (SIFT-MS) and
flowing afterglow mass |
98 |
Analysis of Petrol and Diesel Vapor using selective ion flow
tube/mass spectrometry |
97 |
Analysis of ketones by selected ion flow tube mass
spectrometry |
96 |
A SIFT study of the reactions of H2ONO+ ions with several
types of organic molecules |
95 |
Selected ion flow tube, SIFT, studies of the reactions of
H3O+,NO+ and O2+ with eleven |
94 |
Measuring transport of water across the peritoneal membraane |
93 |
A SIFT study of the reactions of H3O+, NO+ and O2+ with
hydrogen peroxide and |
92 |
Quantification of acetonitrile in exhaled breath and urinary
headspace using selected ion |
91 |
The influence of electron–electron collisions on electron thermalization in He and Ar |
90 |
Quantification of acetaldehyde released by lung cancer cells
in vitro using selected ion flow |
89 |
Time variation of ammonia, acetone, isoprene and ethanol in
breath: a quantitative SIFT- |
88 |
Increase of acetone and ammonia in urine headspace and
breath during ovulation |
87 |
Comparative measurements of total body water in healthy volunteers
by online breath |
86 |
Quantification of volatile compounds in the headspace of
aqueous liquids using selected |
85 |
Selected ion flow tube studies of the reactions of H3O+, NO+
and O2+ with the |
84 |
A selected ion flow tube, SIFT, study of the reactions of
H3O+, NO+ and O2+ ions with a |
83 |
Analysis of petrol and diesel vapour
and vehicle engine exhaust gases using selected ion |
82 |
A selected ion flow tube (SIFT), study of the reactions of
H3O+,NO+ and O2+ ions with a |
81 |
On-line, simultaneous quantification of ethanol, some
metabolites and water vapour in |
80 |
Ion Formation in Microwave Discharge through Moist Air
|
79 |
Monte Carlo simulations of the influence of ion-neutral
collisions on the ion currents |
78 |
A selected ion flow tube study of the reactions of H3O+, NO+
and O2+ with saturated and |
77 |
Kinetics and isotope patterns of ethanol and acetaldehyde
emissions from yeast |
76 |
Rapid measurement of deuterium content of breath following
oral ingestion to determine |
75 |
Concurrent use of H3O+, NO+ and O2+ precursor ions for the
detection and quantification |
74 |
Quantitative selected ion flow tube mass spectrometry: the
influence of ionic diffusion and |
73 |
Accuracy and precision of flowing afterglow mass
spectrometry for the determination of the |
72 |
Assessment of Rumen Processes Using Selected-Ion-Flow-Tube
Mass Spectrometric |
71 |
On-line measurement of the absolute humidity of air, breath
and liquid headspace samples |
70 |
A new ‘online’ method to measure increased exhaled isoprene
in end-stage renal failure |
69 |
Product ion distributions and rate coefficients for the
attachment reactions of electrons with |
68 |
On-line determination of the deuterium abundance in breath
water vapour by flowing |
67 |
Influence of water vapour on
SIFT-MS analyses of trace gases in humid air and breath
|
66 |
Selected ion flow tube mass spectrometry analyses of stable
isotopes in water: Isotopic |
65 |
Quantification of hydrogen sulphide
in humid air by selected ion flow tube mass |
64 |
Analysis of volatile emissions from porcine faeces and urine using selected ion flow tube |
63 |
An investigation of the reactions of H3O+ and O2+ with NO,
NO2, N2O and HNO2 in |
62 |
Competitive association and charge transfer in the reactions
of NO+ with some ketones: a |
61 |
Trace gases on the breath of healthy volunteers when fasting
and following a protein calorie |
60 |
Quantification of breath isoprene using the selected ion
flow tube mass spectrometric |
59 |
Book chapter: SIFT applications in mass spectrometry |
58 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with
several aromatic and aliphatic |
57 |
Analysis of formaldehyde in the headspace of urine from
bladder and prostate cancer |
56 |
Selected Ion Flow Tube Mass Spectrometry of Urine Headspace |
55 |
Selected Ion Flow Tube studies of the reactions of H3O+, NO+
and O2+ with eleven amine |
54 |
Selected ion flow tube - mass spectrometry: detection and
real-time monitoring of flavours |
53 |
Selected ion flow tube studies of the reactions H3O+, NO+
and O2+ with some |
52 |
The Selected Ion Flow Tube Method for Workplace Analyses of
Trace Gases in Air and |
51 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with
several aromatic and aliphatic |
50 |
The influences of gas and electron temperatures on electron
attachment in gas electrical |
49 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with
several amines and other |
48 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with some
organosulphur molecules |
47 |
Quantification of Ammonia in Human Breath by the Selected
Ion Flow Tube Analytical |
46 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with
several ethers |
45 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with a
series of volatile carboxylic |
44 |
A coordinated flowing afterglow and crossed beam study of
electron attachment to CCl3Br |
43 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with a
series of alcohols |
42 |
SIFT studies of the reactions of H3O+, NO+ and O2+ with a
series of aldehydes and |
41 |
Quantitative analysis of ammonia on the breath of patients
in end-stage renal failure |
40 |
Validation of the SIFT technique for trace gas analysis of
breath using the syringe injection |
39 |
Gas phase reactions of some positive ions with atomic and
molecular hydrogen at 300K |
38 |
Quantitative analysis of metabolites on the breath of patients
with renal failure |
37 |
Review electron Attachment to C60 and C70 in the Gas Phase |
36 |
Radiation from the Reactions of NO+ with Cl- and I- |
35 |
Review The Selected Ion Flow Tube |
34 |
The selected ion flow tube (SIFT) - a novel technique for
biological monitoring, |
33 |
Review The novel SIFT approach to trace gas analysis of air
and breath |
32 |
Review Application of ion chemistry and the SIFT technique |
31 |
A selected ion flow tube study of
the reactions of NO+ and O2+ ions with some organic |
30 |
Review. Ions in the Terrestrial Atmosphere and in
Interstellar Clouds |
29 |
An on-line Langmuir probe technique for the study of afterglow
plasmas |
28 |
Reactions of hydrated hydronium ions and hydrated hydroxide
ions with some |
27 |
The Influence of Ion-Neutral Collisions in the Plasma Sheath
on the Ion Current to an |
26 |
Reactions of H3O+ and OH- ions with organic molecules
applications to trace gas analysis |
25 |
The varying influences of gas and electron temperatures on
the rates of electron |
24 |
Formation of SF5- in electron attachment to SF6 swarm and
beam results reconciled |
23 |
Book chapter: Swarm techniques |
22 |
Review: Recent studies of electron attachment and
electron-ion recombination at thermal |
21 |
The influence of collisions in the space charge sheath on
the ion current collected by a |
20 |
The reactions of some interstellar ions with benzene,
cyclopropane and cyclohexane |
19 |
Formation and decay of C60- following free electron capture
by C60 |
18 |
A Study of electron attachment to C70 using the FALP
technique |
17 |
Book chapter: FALP studies of electron-ion recombination and
electron attachment |
16 |
electron temperature relaxation in afterglow plasmas:
diffusion cooling |
15 |
The role of H+ and H3+ ions in the degradation of
interstellar molecules |
14 |
Book chapter: Studies of electron attachment at thermal
energies using the FALP |
13 |
electron attachment to C60 at low
energies |
12 |
Dissociative recombination of H3+: experiment and theory
reconciled |
11 |
FALP studies of electron attachment at elevated electron
temperatures: The influence of |
10 |
FALP studies of the dissociative recombination coefficients
for O2+ and NO+ within the |
9 |
Dissociative recombination of H3+ and some other
interstellar ions: a controversy |
8 |
SIFT studies of the reactions of rare gas atomic ions with
Cl2 and Br2. |
7 |
A further investigation of the reaction of C2H2+ with H2 |
6 |
SIFDT studies of reactions of C+, CH+ and CH2+ with HCl and CO2 and CH3+ with HCl |
5 |
The reactions of positive and negative halogen ions with Cl2
and Br2 |
4 |
Energy dependences of fast reactions of positive ions X+
with HCl from near thermal to 2 |
3 |
Review: Studies of interstellar ion reactions using the SIFT
technique: isotope fractionation |
2 |
Some reactions of the highly polar ion
ArH3+ |
1 |
A SIFT study of the reactions of O+, H+ and HeH+ with Several Molecular Gases at 300 K |
|
|