The Vocus PTR-TOF offers unmatched sensitivity and mass resolving power for online detection of VOCs

Advantages of the Vocus PTR-TOF

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Webinar: Vocus PTR-TOF Real-time VOC Analysis with Market Leading Performance

Download Vocus PTR-TOF Brochure

Improving PTR-MS without Compromise

The unique Vocus ion molecule reactor (IMR) improves almost all aspects of PTR-MS performance, while maintaining critical specifications and reaction processes that have been established for conventional designs.  

These fundamental aspects of Vocus PTR-TOF performance are key to its fast, ultra-sensitive measurement of trace VOCs.

Product Ion Energies and Branching Ratios in the Vocus Ion-Molecule Reactor

The RF focusing fields in the Vocus ion molecule reactor improve sensitivity while maintaining product ion energies and recorded branching ratios that are nearly identical to those of traditional drift-tube PTR ion-molecule reactor designs.

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High Purity H3O+ Reactant Ions Enable Simple Interpretation of Vocus PTR-TOF Data

Vocus PTR-TOF mass spectra are dominated by protonated peaks and free of significant contributions from non-PTR reaction and therefore easily interpreted and quantified.

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Calibrating Vocus PTR-TOF Sensitivity Using a Subset of VOC Standards

The Vocus PTR-TOF routinely detects a very large number of VOCs, including many for which standards are not available.  It is possible to calibrate for all detected compounds with good accuracy based on simple measurements of a small number of VOC standards.

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Ultra-Fast Time Response with the Vocus PTR-TOF

The combination of its efficient inlet system, heated reaction cell, and high sensitivity makes the Vocus PTR-TOF the optimum detector for high throughput or highly time resolved measurements of low volatility organic compounds.

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Select a Vocus Model to Meet Your Measurement Needs

a. Each model can be operated with higher resolving power at reduced sensitivity.

Components

Standard

• Standby Valve.  Allows servicing of Vocus reaction cell hardware without venting (Models 2R, S, and Scout).
• Tofware Data Post Processing.
• Library of Detectable Compounds.
• Thuner Software. Automatic mass spectrometer tuning software.
• Touch Screen Control.
• Shipping Container.  Deployment with no disassembly required.
• Vocus Acquisition and Control Software.
  • Automated gas calibration and zeroing with programmable cycling
  • Real-time reporting of calibrated concentrations for target compounds
  • Single-click transitions between shutdown, ready, and sleep states

Options

• Aerosol Inlet.  Online analysis of the molecular composition of aerosols with Vocus PTR-TOF.
• Breath Inlet. Real-time measurement of VOCs in human breath. 
• Fast GC.  GC separation before Vocus PTR-TOF increases experiment resolution and separate isomeric species.
• Headspace Autosampler.  Coupling Vocus PTR-TOF to headspace autosampler for high throughput analysis.    Watch Video
• Interchangeable Ion Sources.  Easy interchange of ion sources with our API-TOF platform.
• Liquid Calibration System (LCS).  Direct calibration of instrument response using aqueous standards.
• Permeation Source.  Continuous internal mass calibration.
• Reagent Ion Switching.  An expanded suite of reagent ions increases chemical scope and specificity.

Vocus Reaction Cell and Sampling Inlet

• Proprietary reagent ion source and ion-molecule reaction cell with axial DC field and RF-focusing.
• Automated reagent ion switching.
• Temperature controlled reaction cell, ambient temperature up to 120C.
• Heated inlet system, up to 180 C.

Vocus Software

Vocus acquisition and control software provides a tailored user interface by offering numerous skins for common applications.

VocusTRACK

• Track concentrations of target compounds as a function of time.
• Choose target compounds from Tofwerk’s ever-expanding library
• Bundle compounds together into distinct classes.
• Automated mass- and sensitivity-calibration.
• Automated, routine switching of reagent ions.
• Automated, periodic background determination.
• Real-time data processing for online concentration display and export
• Broadcast of results to the network
• Single-click transition between instrument states (ready, sleep, shutdown etc).

VocusDETECT

• Qualitatively report presence of target compounds in sample.
• Choose target compounds from TOFWERK’s ever-expanding library.
• User-tunable confidence levels on up/down alarm condition on a per-compound basis.
• Sample mode: pre-define background before running batch of individual samples.
• Real-time mode: Proprietary adaptive threshold algorithm responds to changing background levels to deliver continuous online compound detection.
• Broadcast of results to the network.
• Saving & broadcast of mass spectra and pertinent metadata upon alarm condition for detailed offline forensic application.

VocusQC

• Quality control through comparison of sample spectra against reference (“fingerprinting”).
• User-tunable acceptance criteria.
• Separation of samples into distinct classes for rapid QC of heterogeneous sample batches.
• Export of results to PDF report and/or broadcast to the network.
• Synchronization with process line using simple URL-based API.

VocusLAB

• Full instrument control with minimum fuss– From single-click instrument control to fine tuning of each instrument parameter, VocusLAB is designed for R&D labs where comprehensive user control of all acquisition settings may be desired, whilst reducing common operations, such as startup & shutdown or sensitivity calibration, to a single click.
• Individual settings – VocusLAB’s fully customizable workspace concept allows individual users to create their own workspaces containing personalized settings tailored to the specific user’s needs and preferences.
• Online data viewing– Browsing of data through the graphical interface in all measurement data dimensions (time, chromatography, ion-mobility, MS).
• Comprehensive instrument control– Parameters such as voltages, temperatures and pressures can be easily controlled through VocusLAB’s graphical interface.
• Chromatography and autosampler ready– A sequence of samples from a chromatography system or autosampler can be easily recorded using VocusLAB’s sequence editor, with support for synchronization with common software packages.
• Peak parameters- VocusLAB offers an online peak fitting and integration tool for quick inspection of data in real time, for both the MS and other separation dimensions.

Vocus PTR-TOF Publications

2020

1. Li et al. Overlooked organic vapor emissions from thawing Arctic permafrost. Environ. Res. Lett., 2020. DOI: 10.1088/1748-9326/abb62d
2. Wang et al. Characteristics of volatile organic compounds (VOCs) with mobile monitoring around the industrial parks in the Yangzte River Delta region of China. Environmental Chemistry, 2020 (in Chinese). DOI: 10.13227/j.hjkx.202007265.  
3. Claflin, M. S. et al. An in situ gas chromatograph with automatic detector switching between Vocus PTR-TOF-MS and EI-TOF-MS: Isomer resolved measurements of indoor air. Atmos. Meas. Tech. Discuss. In review 2020. In Focus | DOI:10.5194/amt-2020-271
4. Mehra, A. et al. Evaluation of the chemical composition of gas- and particle-phase products of aromatic oxidation. Atmos. Chem. Phys. 2020.  DOI: 10.5194/acp-20-9783-2020
5. Bruderer, T. et al. Detection of Volatile Organic Compounds with Secondary Electrospray Ionization and Proton Transfer Reaction High-Resolution Mass Spectrometry: A Feature Comparison. J. Am. Soc. Mass Spectrom 2020.  In Focus | DOI: DOI: 10.1021/jasms.0c00059
6. Li, H. et al. Source identification of atmospheric organic vapors in two European pine forests: Results from Vocus PTR-TOF observations.  Atmospheric Chemistry and Physics In review 2020.  DOI: 10.5194/acp-2020-648
7. Wang, Y. et al. Detection of gaseous dimethylamine using Vocus proton-transfer reaction time-of-flight mass spectrometry. Atmospheric Environment 2020. In Focus |  DOI: 10.1016/j.atmosenv.2020.117875
8. Wang, Y. et al. Oxygenated products formed from OH-initiated reactions of trimethylbenzene: Autoxidation and accretion. Atmospheric Chemistry and Physics 2020.  DOI: 10.5194/acp-20-9563-2020
9. Li, H. et al. Terpenes and their oxidation products in the French Landes forest: insight from Vocus PTR-TOF measurements. Atmospheric Chemistry and Physics 2020. In Focus | DOI: 10.5194/acp-20-1941-2020 

2019

1. Holzinger, R.; et al. Validity and limitations of simple reaction kinetics to calculate concentrations of organic compounds from ion counts in PTR-MS. Atmos. Meas. Tech. Discuss 2019. DOI: 10.5194/amt-12-6193-2019

2018

1. Riva, M.; Rantala, P.; Krechmer, J. E.; Peräkylä, O.; Zhang, Y.; Heikkinen, L.; Garmash, O.; Yan, C.; Kulmala, M.; Worsnop, D.; and Ehn, M. Evaluating the performance of five different chemical ionization techniques for detecting gaseous oxygenated organic species. Atmos. Meas. Tech. Discuss 2018.  In Focus | DOI:10.5194/amt-12-2403-2019
2. Krechmer, J.; Lopez-Hilfiker, F; et al. Evaluation of a New Vocus Reagent-Ion Source and Focusing Ion-Molecule Reactor for use in Proton-Transfer-Reaction Mass Spectrometry. Analytical Chemistry 2018. In Focus | DOI: 10.1021/acs.analchem.8b02641

Application Notes

• PDF - Trace Detection of Homemade and Commercial Explosives, Taggants, and Precursors With the Vocus Chemical Ionization Mass Spectrometer
• PDF - Real-Time Breath Analysis for Pharmacokinetics Using the Vocus CI-TOF
• PDF - Chemical Fingerprinting of Olive Oil Aroma
• PDF - Automated, Rapid Profiling of Trace Compounds in Complex Chemical Headspace Using the Vocus PTR-TOF
• PDF - Separation and Quantification of Trace Chemical Emissions from Packaging Materials Using the Vocus PTR-TOF
• PDF - Time-Resolved Organic Polysulfides Analysis Using the Vocus PTR-TOF
• PDF - High-Throughput Analysis of VOCs From Electronic Waste Emissions
• PDF - Lung Uptake of Indoor Air Pollutants
• PDF - Inside a Consumer’s Nose: Nose-Space Analysis Using the Vocus PTR-TOF
• PDF - Indoor Air Quality Monitoring at an Industrial Facility
• PDF - Point Source Detection and VOC Emissions Fingerprinting in Chinese Megacities
• Spatial Characterization of VOC Emissions with a Mobile Vocus Elf
• PDF - Realtime Chemical Analysis of Illicit Drugs
• PDF - Online Profiling of Fish Oil Oxidation Byproducts
• Realtime Detection of the Explosives TATP and HMTD
• PDF - Rapid Quantification of Brett Off-Flavor Compounds in Wine
• PDF - Fast Analysis of Beer Aroma – GC-PTR-MS
• PDF - Rapid, Sensitive Fentanyl Detection by Thermal Desorption PTR-MS
• PDF - Monitoring Trace VOCs in Human Breath Emissions with PTR-MS
• High-Throughput Monitoring of Plant VOC Kinetics with a Novel Autosampler and the Vocus PTR-TOF - View Video
• PDF - Identification of Isobaric VOCs in Coffee Aroma with High Resolution PTR-MS

Conference Presentations

• PDF - Puff-By-Puff Analysis of E-Liquid Components, Flavor Compounds and HPHC in E-Cigarette Vapor Using the Vocus PTR-TOF
• PDF - A New PTR-MS Reaction Cell Combining Linear and Oscillating Fields (EMSC 2018)

Customer Research

• First Field Measurement of Trace Amines Using the Vocus PTR-TOF in China
• (VIDEO) French TV News Highlights COVID Detection Using the Vocus PTR-TOF
• Resolving Isomers in Indoor Air Using GC Combined with Detector Switching
• Vocus PTR-TOF Excels in Field Study of Atmospheric Oxidation Processes
• Vocus PTR-TOF 2R Excels in Measurements of Highly Oxygenated Compounds
• Profiling Oil and Gas Well Emissions with Mobile PTR-MS

TOFWERK Publications

• Advantages of Time-of-Flight Mass Spectrometry Over Quadrupole MS
• Vocus PTR-TOF Participates in Joint Study for Disease Diagnosis Via Breath Analysis
• Characterization of the Vocus PTR-TOF: Analytical Chemistry

Webinars

• Webinar: Real-Time Breath Analysis With the Vocus Mass Spectrometer
• PDF - Webinar: Real-Time Mobile VOC Monitoring with the Vocus PTR-TOF
• Vocus PTR-TOF Webinar: Fundamentals and Applications - View Video

White Papers

• PDF - Ammonium-Adduct Chemical Ionization Mass Spectrometry (NH4+ CI-MS): Selective, Soft Ionization of VOCs
• PDF - Product Ion Energies and Branching Ratios in the Vocus Ion-Molecule Reactor
• PDF - High Purity H3O+ Reactant Ions Enable Simple Interpretation of Vocus PTR-TOF Data
• PDF - Calibrating Vocus PTR-TOF Sensitivity Using a Subset of VOC Standards
• PDF - Ultra-Fast Time Response with the Vocus PTR-TOF

Product Information

• PDF – Vocus PTR-TOF Brochure 
• PDF – Vocus Elf PTR-TOF Product Sheet
• PDF – Vocus Reagent Ion Switching
• PDF – Fast GC for Vocus  
• PDF – Vocus Headspace Autosampler
• PDF – Vocus Liquid Calibration System
• PDF – Vocus Breath Inlet

Background Knowledge About Vocus PTR-TOF

Direct Measurement of Complex VOC Mixtures with EI, CI, and SPI

The ionization source is a crucial component of a mass spectrometer. The characteristics of the ion source, including the method of ionization, pressure, temperature, and

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Advantages of Time-of-Flight Mass Spectrometry Over Quadrupole MS

Time-of-Flight Mass Analyzer A TOF mass analyzer separates ions based on their velocity as they travel through a flight region, often called the flight tube.

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Why Is Sensitivity an Important Specification in Mass Spectrometry?

Practical Implications of High Sensitivity in Mass Spectrometry The video below uses the example of detecting trace levels of the compound TCA in cork wine

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What is Proton Transfer Reaction Mass Spectrometry (PTR-MS)?

Proton Transfer Reaction – Mass Spectrometry (PTR-MS) is the most widely used method for real-time monitoring of volatile organic compounds (VOCs) at low concentrations Key

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