Trace Matters Scientific Llc
CAGE Code: 68AS9
NCAGE Code: 68AS9
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 966120045
Summary
Trace Matters Scientific Llc is an Active Commercial Supplier with the Cage Code 68AS9 and is tracked by Dun & Bradstreet under DUNS Number 966120045..
Address
909 Rose Ave
Rockville MD 20852-8724
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 68AS9
- What is CAGE Code 68AS9?
- 68AS9 is the unique identifier used by NATO Organizations to reference the physical entity known as Trace Matters Scientific Llc located at 909 Rose Ave, Rockville MD 20852-8724, United States.
- Who is CAGE Code 68AS9?
- 68AS9 refers to Trace Matters Scientific Llc located at 909 Rose Ave, Rockville MD 20852-8724, United States.
- Where is CAGE Code 68AS9 Located?
- CAGE Code 68AS9 is located in Rockville, MD, USA.
Contracting History for CAGE 68AS9 Most Recent 25 Records
- NNX17CG71P
- Igf::Ot::Igf Trace Matters Scientific Llc Proposes To Design, Develop, And Prototype A Miniature Ambient Desorption, Ionization, And Extraction Source (Madie) As A Compact All-In-One Instrument For Operation Under The Ambient Martian Environment To Sequentially Desorb, Ionize, And Extract Analytes From Martian Samples. The Madie Will Enable In Situ Interrogation Of The Martian Mineralogical Samples With No Sample Preparation And/Or Separation When Coupled To A Mass Spectrometer. At The Core Of The Proposed Madie Will Be A Self-Tuning Plasma Ionization Module For Sample Ionization, Consisting Of An Ambient Carbon Dioxide Plasma Source And A Tuning Circuit; An Ion Funnel Module For Efficient Ion Extraction; And A Laser Diode Module For Time-Resolved Sample Desorption. The Ambient Plasma Source Will Utilize The Martian Atmosphere, Which Is Mainly Composed Of Carbon Dioxide, To Form A Reduced-Pressure Carbon Dioxide Inductively Coupled Plasma (Icp) To Ionize The Plume Of Sampled Analytes. The Tuning Circuit Will Compensate Any Plasma Variation And Maintain The Plasma Source At Resonance During Operation. The Ion Funnel Module, Which Will Be Derived By A Radio Frequency Power Supply, Will Efficiently Extract The Ions And Guide Them Into The Mass Spectrometer To Increase Sensitivity. The Laser Diode Module Will Produce A Plume Of Sample Analytes From The Sample Surface With High Spatial Resolution At Both Ultraviolet (Uv) And Infrared (Ir) Wavelengths. During Phase I, The Self-Tuning Plasma Ionization Module Will Be Designed And Constructed, And The Ion Funnel Will Be Designed And Simulated With Simion And Then Prototyped. Commercially-Available Laser Modules At Various Wavelengths Will Be Selected And Experimentally Validated. These Modules Will Then Be Pieced Together To Develop A Breadboard Prototype Of The Madie By The Conclusion Of Phase I. Preliminary Experiments Will Be Conducted To Test The Efficiency Of The Madie.
- 8 Jun 2018
- Igf::Ot::Igf Trace Matters Scientific Llc Proposes To Design, Develop, And Prototype A Miniature Ambient Desorption, Ionization, And Extraction Source (Madie) As A Compact All-In-One Instrument For Operation Under The Ambient Martian Environment To Sequentially Desorb, Ionize, And Extract Analytes From Martian Samples. The Madie Will Enable In Situ Interrogation Of The Martian Mineralogical Samples With No Sample Preparation And/Or Separation When Coupled To A Mass Spectrometer. At The Core Of The Proposed Madie Will Be A Self-Tuning Plasma Ionization Module For Sample Ionization, Consisting Of An Ambient Carbon Dioxide Plasma Source And A Tuning Circuit; An Ion Funnel Module For Efficient Ion Extraction; And A Laser Diode Module For Time-Resolved Sample Desorption. The Ambient Plasma Source Will Utilize The Martian Atmosphere, Which Is Mainly Composed Of Carbon Dioxide, To Form A Reduced-Pressure Carbon Dioxide Inductively Coupled Plasma (Icp) To Ionize The Plume Of Sampled Analytes. The Tuning Circuit Will Compensate Any Plasma Variation And Maintain The Plasma Source At Resonance During Operation. The Ion Funnel Module, Which Will Be Derived By A Radio Frequency Power Supply, Will Efficiently Extract The Ions And Guide Them Into The Mass Spectrometer To Increase Sensitivity. The Laser Diode Module Will Produce A Plume Of Sample Analytes From The Sample Surface With High Spatial Resolution At Both Ultraviolet (Uv) And Infrared (Ir) Wavelengths. During Phase I, The Self-Tuning Plasma Ionization Module Will Be Designed And Constructed, And The Ion Funnel Will Be Designed And Simulated With Simion And Then Prototyped. Commercially-Available Laser Modules At Various Wavelengths Will Be Selected And Experimentally Validated. These Modules Will Then Be Pieced Together To Develop A Breadboard Prototype Of The Madie By The Conclusion Of Phase I. Preliminary Experiments Will Be Conducted To Test The Efficiency Of The Madie.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $125,000.00
- National Aeronautics And Space Administration (Nasa)