Aerosol Dynamics Inc
CAGE Code: 3MVF9
NCAGE Code: 3MVF9
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 845314962
Summary
Aerosol Dynamics Inc is an Active Commercial Supplier with the Cage Code 3MVF9 and is tracked by Dun & Bradstreet under DUNS Number 845314962..
Address
935 Grayson St
Berkeley CA 94710-2640
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 3MVF9
- What is CAGE Code 3MVF9?
- 3MVF9 is the unique identifier used by NATO Organizations to reference the physical entity known as Aerosol Dynamics Inc located at 935 Grayson St, Berkeley CA 94710-2640, United States.
- Who is CAGE Code 3MVF9?
- 3MVF9 refers to Aerosol Dynamics Inc located at 935 Grayson St, Berkeley CA 94710-2640, United States.
- Where is CAGE Code 3MVF9 Located?
- CAGE Code 3MVF9 is located in Berkeley, CA, USA.
Contracting History for CAGE 3MVF9 Most Recent 25 Records
- 80NSSC22PA930
- Eo14042 Sbir Phase I A Particulate Air Quality Monitor For Manned Lunar Explorations
- 24 Aug 2022
- Eo14042 Sbir Phase I A Particulate Air Quality Monitor For Manned Lunar Explorations
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $149,993.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC22PA930
- Eo14042 Sbir Phase I A Particulate Air Quality Monitor For Manned Lunar Explorations
- 14 Jul 2022
- Eo14042 Sbir Phase I A Particulate Air Quality Monitor For Manned Lunar Explorations
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $149,993.00
- National Aeronautics And Space Administration (Nasa)
- FA860122P0024
- Nano Aerosol Profiling System
- 13 Sep 2022
- Nano Aerosol Profiling System
- Fa8601 Aflcmc Pzio
- Department Of Defense (Dod)
- $218,000.00
- Department Of Defense (Dod)
- FA860122P0024
- Nano Aerosol Profiling System
- 6 Dec 2022
- Nano Aerosol Profiling System
- Fa8601 Aflcmc Pzio
- Department Of Defense (Dod)
- $218,000.00
- Department Of Defense (Dod)
- FA860122P0024
- Nano Aerosol Profiling System
- 11 Jan 2022
- Nano Aerosol Profiling System
- Fa8601 Aflcmc Pzio
- Department Of Defense (Dod)
- $218,000.00
- Department Of Defense (Dod)
- 80NSSC21C0009
- Air Particulate Monitor (Apm) Support
- 2 Jun 2021
- Air Particulate Monitor (Apm) Support
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $126,012.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0009
- Air Particulate Monitor (Apm) Support
- 26 Jan 2021
- Air Particulate Monitor (Apm) Support
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $126,012.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0009
- Air Particulate Monitor (Apm) Support
- 3 Mar 2021
- Air Particulate Monitor (Apm) Support
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $126,012.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0441
- Eo14042 An Ultrafine Airborne Particle Counter
- 28 Sep 2022
- Eo14042 An Ultrafine Airborne Particle Counter
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $726,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0441
- Eo14042 An Ultrafine Airborne Particle Counter
- 14 Jun 2021
- Eo14042 An Ultrafine Airborne Particle Counter
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $726,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0441
- An Ultrafine Airborne Particle Counter
- 14 Jun 2021
- An Ultrafine Airborne Particle Counter
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $726,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0441
- An Ultrafine Airborne Particle Counter
- 6 Jul 2023
- An Ultrafine Airborne Particle Counter
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $726,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0441
- An Ultrafine Airborne Particle Counter
- 22 Aug 2023
- An Ultrafine Airborne Particle Counter
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $906,522.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- 30 Aug 2018
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To≫20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- 30 Aug 2018
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To≫20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0188
- In Our Phase Ii Project We Are Building A Portable, Zero-Gravity Capable System For Real-Time Measurement Of Ultrafine And Coarse Airborne Particles, With The Ultimate Goal Of Monitoring Of Cabin Air Quality In Space Craft. Our Phase Ii-X Goal Is To Transition Our Phase Ii Technology To A System Qualified For Deployment On The International Space Station (Iss).
- 16 May 2018
- In Our Phase Ii Project We Are Building A Portable, Zero-Gravity Capable System For Real-Time Measurement Of Ultrafine And Coarse Airborne Particles, With The Ultimate Goal Of Monitoring Of Cabin Air Quality In Space Craft. Our Phase Ii-X Goal Is To Transition Our Phase Ii Technology To A System Qualified For Deployment On The International Space Station (Iss).
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $250,000.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm
- 17 Apr 2020
- A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- 23 Mar 2018
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- 4 Jun 2018
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- 21 May 2018
- Igf::Ot::Igf A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm Will Be Detected By A Self-Sustaining, Tippable, Water-Based Condensation Particle Counter. This Will Be Coupled To An Optical Sizing Instrument To Provide Particle Concentration And Approximate Sizing From 10 Nm To>20 Micrometers. Knowledge Of The Concentration And Size Of Airborne Particles On Manned Spacecraft Is Needed To Assess Environment To Which Astronauts Are Exposed, And To Provide Early Warning Of On-Board Fire. Especially Important Are Those In The Submicrometer Size Range. Yet To Date There Is No Zero-Gravity Technique For Long-Term Monitoring These Fine Particles At The Low Concentrations Generally Present. Our Innovation, A Tippable, Self-Sustaining, Water-Based Condensation Particle Counter, Will Provide This Measurement. Individual Particles As Small As 10Nm Are Detected Through Condensational Enlargement To Form Optically Detectable Droplets. Unlike Other Condensational Methods All Liquid Water Required For Measurement Is Contained Within, And Recpatured By, The Wick Of The Instrument. All Water Transport Is By Capillary Action, And Thus Enabling Operation At Zero Gravity. Combined With Ultrafine Particle Precut, And Standard Optical Particle Counting And Sizing For Larger Particles, This Instrument System Will Provide Particle Number Concentration And Approximate Sizing From 10 Nm To Above 20 Micrometers.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CC22C
- A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm
- 28 Oct 2019
- A Compact Instrument Will Be Develop To Provide Long-Term Monitoring Of The Number Concentration And Approximate Size Of Airborne Particles In Microgravity Environments Such As Found Aboard Spacecraft Cabins. Particles As Small As 10 Nm
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,249,445.00
- National Aeronautics And Space Administration (Nasa)
- HDTRA116C0065
- Base Period
- 15 Sep 2020
- Base Period
- Dcma Stockton
- Department Of Defense (Dod)
- $2,453,552.86
- Department Of Defense (Dod)