Integrated Solutions for Food Authenticity, Characterization and Safety with the expression® Compact Mass Spectrometer, AVANT® (U)HPLC and SOLATION® ICP-MS
Your integrated laboratory solution for comprehensive testing of food, ingredients and natural products. Advion offers a full suite of analytical instrumentation for characterization, screening and purity determination, including:
expression® CMS – The expression® Compact Mass Spectrometer (CMS) offers the industry’s widest range of sample introduction systems, providing rapid answers with little or no sample prep in < 30 seconds.
SOLATION® ICP-MS – Provides fast, simple, multi-element analysis of toxic metals, and essential elements and minerals in a wide array of samples, including water, soil, plant material, food and raw ingredients
AVANT® HPLC & UHPLC – Advion’s range of modular high performance, liquid chromatography systems can be used standalone with UV and UV/Vis detector options, or with the expression® CMS to provide seamlessly integrated LC/CMS under the full control of Advion’s simple, intuitive software suite.
PLATE EXPRESS® TLC PLATE READER – Plate Express® provides a simple, automated means of obtaining mass spectra directly from TLC plates, combined with Advion’s expression® CMS creating a technique known as TLC/ CMS. See results in < 30 seconds at the push of a button.
Integrated Solutions for Potency and Safety with the expression® Compact Mass Spectrometer and SOLATION® ICP-MS
Outfit your lab with Advion Interchim Scientific’s line of custom cannabis solutions, including the expression® Compact Mass Spectrometer (CMS), the SOLATION® ICP-MS, and a customizable (U)HPLC solution.
Your Complete Lab Solution: Advion Interchim Scientific provides integrated laboratory solutions for comprehensive cannabis testing, including potency testing and cannabinoid levels as well as pesticide identification and quantitation of heavy metals.
For Direct Mass Analysis of Liquid & Solid Samples with the expression® CMS
The direct atmospheric solids analysis probe, otherwise known as ASAP®, permits chemists fast and reliable sample analysis of liquid and solid samples such as reaction mixtures, food samples, natural products and tablets.
Chemists simply dip the closed end of a glass capillary into the sample of interest (even complex mixtures) or scrape the surface of a solid, and then place the capillary into the CMS for analysis.
Clean-up and analysis is a single step. Involatile buffers and salts remain on the capillary ensuring they do not suppress ionization or interfere with the measurement, while the compounds of interest are identified by the CMS.
In addition, users benefit from solvent-free APCI, which ionizes a wider range of compounds.
A: My research focuses on developing small molecule modulators to pharmacologically validate potential antibiotic, cancer, and chronic pain therapeutic targets.
Q: WHAT WAS YOUR PREVIOUS WORKFLOW AND SOME OF THE CHALLENGES YOU EXPERIENCED?
A: Purdue’s campus has not had easy access to walk-up mass spec instruments. To get reliable mass spec data for small molecules, one would typically have to submit a request to a central mass spec core. This was not conducive to reaction monitoring or small molecule characterization.
Q: WHY DID YOU INCORPORATE THE EXPRESSION® CMS INTO YOUR LABORATORY?
A: The university research office acknowledged this need and purchased three CMSL instruments with the Plate Express™ and ASAP® capability for walk-up mass spec at three locations on campus. This provided easy access to mass spec data to monitor reactions and characterize molecules. We have even confirmed covalent modification of a protein with a small molecule ligand using this instrument. I was so impressed with the user-friendly interface and instrument set up, that I applied for and received a grant to purchase a 4th instrument to be used in the undergraduate organic teaching lab in the course I teach. We have now incorporated this instrument into the workflow of lab modules for students to collect and analyze their own mass spec data. Something else that stuck out as a positive with Advion is that the data processing software, Data Express™, is free to download for any user. We can have our students analyze data off-site on their own computers. We look forward to incorporating this instrument into more organic lab modules and other courses.
Q: WHO WOULD YOU RECOMMEND TO PURCHASE THE EXPRESSION®CMS?
A: I recommend this instrument for both research labs and teaching labs. The ASAP® probe is especially convenient and easy to use for mass spec data.
Q: DO YOU HAVE ANY PUBLICATIONS OR PRESENTATIONS USING THE EXPRESSION®CMS?
A: Not yet, but we have one in review for my research, and another that will be written to publish the laboratory module in the Journal of Chemical Education.
A simple, sensitive and selective ASAP® sample introduction approach to measuring the presence of two isobaric compounds, CBDA and THCA, contained in a complex sample such as hemp or cannabis plants or their corresponding extraction products. Measurements are made of differences in the relative composition of CBDA and THCA fragment ions originating from the same precursor ion. Applicability to screening plants and plant product materials such as hemp or marijuana to monitor out-of-specification composition is demonstrated.
This poster was presented at the 2018 Cannabis Science Conference in Portland, OR.
Maria Baskin, Natalia Fridman, Monica Kosa,Galia Maayan
We describe the construction of synthetically challenging heteroleptic complexes by capitalizing on the solubility properties of their corresponding favored homoleptic complexes. We demonstrate that the formation of a heteroleptic Cu2+ complex based on 2,2′:6′,2′′-terpyridine (Terpy) and 8-hydroxyquinoline (HQ) is not possible due to the insolubility of (HQ)2Cu2+. Replacing HQ with 8-hydroxy-2-quinolinecarbonitrile (HQCN) enabled the solubility of (HQCN)2Cu2+ in acetonitrile, leading to the formation of the heteroleptic complex Terpy(HQCN)Cu2+, TQCu.Applying these conditions to the synthesis of the corresponding heteroleptic Co2+ complex resulted in TerpyCo2+(acetate)2, which is insoluble in acetonitrile. Upon changing the solvent to methanol, the carbonitrile group of HQCN was converted to carboxyimidate HQOMe yielding a heteroleptic complex Terpy(HQOMe)Co2+, TQ′Co. Using this method, we also generated the heteroleptic complex TQ′Ni and the polynuclear heteroleptic complex Q′4Q′′2Mn4 (Q′′ = HQO2Me). Detailed analysis of the complexes included characterization by X-ray diffraction, EPR, UV-Vis, high resolution ESI MS, DFT calculations and electrochemistry. X-ray analysis of TQCu revealed distorted square pyramidal geometry, while TQ′Co and TQ′Ni exhibit distorted octahedral geometry, which includes metal coordination via the carboxyimidate nitrogen site. Interestingly, Q′4Q′′2Mn4 was found to contain a [MnII4(μ3-O)2(μ2-O)4N10]2+ core, which adopts a distorted octahedral geometry, and two types of HQ chelators. Thus, Q′4Q′′2Mn4 is also heteroleptic even though it does not contain a Terpy ligand. Solution studies revealed that while TQCu is stable in solution, TQ′Co and TQ′Ni go through ligand exchange and are partially converted to their corresponding homoleptic complexes. Based on these data we could propose a mechanism for the formation of TQ′Co and TQ′Ni and show that TQ′Co can be prepared directly from Terpy and HQOMe.
The MS analysis was carried out using Advion Expression® CMS ESI.
Vanilla extract is a baking staple for cookies, cupcakes and more – but not all vanilla extract is created equal. Pure vanilla extract is made from the vanilla bean pod of the Vanilla planifolia plant. Imitation vanilla is derived from ethyl vanillin, which can be synthesized without the use of any vanilla beans at all. While pure vanilla extract may seem like the obvious choice, it does come at a price, making the imitation product a viable option in supermarkets across the world. But it begs the question: what is the chemical difference, and are products marketed as “pure” truly authentic?
In this screening assay, the expression® CMS coupled with the Atmospheric Solids Analysis Probe (ASAP®) is used to quickly identify the presence of artificial vanilla, as well as confirm the purity of products marketed as such. This technique provides a fast and easy method for purity analysis.
Overview:
Direct sample analysis is possible via an Atmospheric Solids Analysis Probe (ASAP®) combined with atmospheric pressure chemical ionization (APCI) on a compact mass spectrometer. This technique allows for the rapid investigation (<30 sec) of material suspected of containing trace amounts of explosive residues.
The expression® Compact Mass Spectrometer (CMS) with an Atmospheric Solids Analysis Probe (ASAP®) is a high performance instrument with a small footprint that allows for efficient liquid and solid screening at the point of need. The CMS provides rapid and accurate detection with significantly reduced false-positives and false-negatives than other techniques.
Here, we demonstrate the use of the ASAP® probe and expression® CMS detector for explosives screening. Sampling via the ASAP® probe is then inserted in to the APCI source of the mass spectrometer, initiating in a fast ionization reaction that provides rapid results.
The expression® CMS coupled with the Atmospheric Solids Analysis Probe (ASAP®) is used to determine purity and detect adulterants in coconut oil. In this application note, pure coconut oil is tested against a sample of coconut oil adulterated with canola oil for comparative data analysis and a fast and easy method for purity analysis.
TLC/CMS, the atmospheric liquids and solids probe (ASAP), and the volatile APCI source provide direct analysis without sample preparation – even for air-sensitive compounds.
With the daily need to analyze a variety of samples, these techniques are indispensable in a busy lab.
Learn how a single instrument can be adapted to each of these sample requirements and rapidly changed to accommodate back-to-back assays. Listen to users in the field speak about the innovative sample inlets that have cut down on sample prep and streamlined their everyday work flow.
During this webinar you will:
Learn how the CMS offers real-time results and decision making right at the bench. This allows chemists to optimize reactions, know when to quench, and know when they have failed and to move on
Learn several novel sample techniques that can streamline workflow in your lab
Find fast analysis methods for liquids, solids and vapor-phase compounds
Hear from leaders in mass spectrometry including:
Dr. Jack Henion, Advion Scientific Founder
Matthew Turner, Experimental Officer in Mass Spectrometry, Department of Chemistry, Loughborough University
Tao Yongfeng, Post Doctorate, The Romo Group, Baylor University
Sean M. Kerwin, PhD, Associate Professor, Department of Chemistry & Biochemistry, Texas State University
