Difference between revisions of "User:Shawndouglas/sandbox/sublevel6"

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<div class="nonumtoc">__TOC__</div>
==This is demo code demoing math==
{{ombox
| type      = notice
| style    = width: 960px;
| text      = This is sublevel2 of my sandbox, where I play with features and test MediaWiki code. If you wish to leave a comment for me, please see [[User_talk:Shawndouglas|my discussion page]] instead.<p></p>
}}


==Sandbox begins below==
As a typical example, from a [[calibration plot]] following a [[linear equation]] taken here as the simplest possible model:


==AB Sciex Pte. Ltd.==
: <math>f(x) = ax + b </math>
'''Main landing page for cannabis testing''': https://sciex.com/applications/food-and-beverage-testing/cannabis-testing


Commonly known as Sciex, AB Sciex Pte. Ltd. develops "solutions in mass spectrometry paired with capillary electrophoresis and liquid chromatography."<ref name="SciexAbout">{{cite web |url=https://sciex.com/about-us |title=About Us |publisher=AB Sciex Pte. Ltd |accessdate=20 November 2018}}</ref> The company markets some of its solutions for cannabis lab testing, including<ref name="SciexCanna">{{cite web |url=https://sciex.com/applications/food-and-beverage-testing/cannabis-testing |title=Grow Your Cannabis Lab's Potential and Bottom Line with LC-MS/MS Analysis |publisher=AB Sciex Pte. Ltd |accessdate=20 November 2018}}</ref>:
where, <math>f(x)</math> corresponds to the signal measured (e.g. voltage, luminescence, energy, etc.)
 
* pesticide testing
* potency testing
* mycotoxin testing
* terpenes testing
 
===Instruments===
1. Sciex offers four different Triple Quad systems for LC-MS/MS: the 6500+, 5500, 4500, and 3500.
 
====6500+====
The [https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-6500plus-system 6500+] has the following key features, per the website<ref name="Sciex6500+">{{cite web |url=https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-6500plus-system |title=SCIEX Triple Quad 6500+ LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': 5-2000 Da
 
''Features'': IonDrive QJet, HED Detector
 
''Detector Type'': IonDrive High Energy Detector+
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM, EMS, EPI, ER, MS3, MRM3
 
''Ionization Sources/Options'': IonDrive Turbo V; OptiFlow™ Turbo V; TurboIonSpray®; Atmospheric-pressure chemical ionization (APCI); DuoSpray™, and NanoSpray® III, Phytronix LDTD, Advion LESA Clarity, Digital PicoView, NanoSource, SelexION®+
 
====5500====
The [https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-5500-system 5500] has the following key features, per the website<ref name="Sciex5500">{{cite web |url=https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-5500-system |title=SCIEX Triple Quad 5500 LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': 5-1250 Da
 
''Features'': Turbo V, Pulse Counting Detector
 
''Detector Type'': AcQuRate Pulse Counting Detector
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM
 
''Ionization Sources'': Turbo V, OptiFlow Turbo V, TurboIonSpray® Atmospheric-pressure chemical ionization (APCI); DuoSpray™, and NanoSpray® III, Phytronix LDTD, Advion LESA Clarity, Digital PicoView, NanoSource, SelexION®
 
====4500====
The [https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-4500-system 4500] has the following key features, per the website<ref name="Sciex4500">{{cite web |url=https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-4500-system |title=SCIEX Triple Quad 5500 LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': 5-2000 Da
 
''Detector Type'': AcQuRate Pulse Counting Detector
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM
 
''Ionization Sources'': Turbo V; TurboIonSpray; Atmospheric-pressure chemical ionization (APCI); DuoSpray®, and NanoSpray® III
 
====3500====
The [https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-3500-system 3500] has the following key features, per the website<ref name="Sciex3500">{{cite web |url=https://sciex.com/products/mass-spectrometers/triple-quad-systems/triple-quad-3500-system |title=SCIEX Triple Quad 5500 LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': 5 – 2000 Da
 
''Features'': Turbo V, Pulse Counting Detector
 
''Detector Type'': AcQuRate Pulse Counting Detector
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM
 
''Ionization Sources'': TurboV ion source with TurboIonSpray™ and APCI probes
 
-----
 
 
2. Sciex also offers three different Triple Quad Linear Ion Traps (QTRAP) systems for LC-MS/MS: the 6500+, 5500, and 4500. The company states that these are similar to the Triple Quad systems "but with enhanced scan functions to enable simultaneous quantitation and confirmation."<ref name="SciexQTRAP">{{cite web |url=https://sciex.com/products/mass-spectrometers/qtrap-systems |title=QTRAP LC-MS/MS Systems |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>
 
====QTRAP 6500+====
The [https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-6500plus-system QTRAP 6500+] has the following key features, per the website<ref name="SciexQTRAP6500+">{{cite web |url=https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-6500plus-system |title=QTRAP 6500+ LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': Dual switchable mass range: up to 1250 Da or up to 2000 Da
 
''Features'': IonDrive QJet, HED Detector
 
''Detector Type'': IonDrive High Energy Detector+
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM, EMS, EPI, ER, MS3, MRM3, TripleTrap™ Scanning
 
''Ionization Sources/Options'': IonDrive Turbo V; OptiFlow™ Turbo V; TurboIonSpray®; Atmospheric-pressure chemical ionization (APCI); DuoSpray™, and NanoSpray® III, Phytronix LDTD, Advion LESA Clarity, Digital PicoView, NanoSource, SelexION®+
 
====QTRAP 5500====
The [https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-5500-system QTRAP 5500] has the following key features, per the website<ref name="SciexQTRAP5500">{{cite web |url=https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-5500-system |title=QTRAP 5500 LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': Dual mass range Up to 1250 Da
 
''Features'': Turbo V, Turbo V OptiFlow™, Pulse Counting Detector
 
''Detector Type'': AcQuRate Pulse Counting Detector
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM, EMS, EPI, ER, MS3, MRM3, TripleTrap™ Scanning
 
''Ionization Sources'': Turbo V OptiFlow™, TurboIonSpray Atmospheric-pressure chemical ionization (APCI); DuoSpray™, and NanoSpray® III, Phytronix LDTD, Advion LESA Clarity, Digital PicoView, NanoSource, SelexION®
 
====QTRAP 4500====
The [https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-4500-system QTRAP 4500] has the following key features, per the website<ref name="SciexQTRAP4500">{{cite web |url=https://sciex.com/products/mass-spectrometers/qtrap-systems/qtrap-4500-system |title=QTRAP 4500 LC-MS/MS System |publisher=AB Sciex Pte. Ltd |accessdate=21 November 2018}}</ref>:
 
''Mass Range'': Up to 2000 Da
 
''Features'': Turbo V, Pulse Counting Detector
 
''Detector Type'': AcQuRate Pulse Counting Detector
 
''Scan Types'': Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM, EMS, EPI, ER, MS3, MRM3, TripleTrap Scanning
 
''Ionization Sources'': Turbo V; TurboIonSpray; Atmospheric-pressure chemical ionization (APCI); DuoSpray®, and NanoSpray® III, Phytronix LDTD, Advion LESA Clarity, Digital PicoView, NanoSource
 
==References==
{{Reflist|colwidth=30em}}

Latest revision as of 20:31, 18 September 2022

This is demo code demoing math

As a typical example, from a calibration plot following a linear equation taken here as the simplest possible model:

where, corresponds to the signal measured (e.g. voltage, luminescence, energy, etc.)