Serionix, Inc.
CAGE Code: 6ELN3
NCAGE Code: 6ELN3
Status: Active
Type: Manufacturer
Dun & Bradstreet (DUNS): 968076914
Summary
Serionix, Inc. is an Active Manufacturer with the Cage Code 6ELN3 and is tracked by Dun & Bradstreet under DUNS Number 968076914..
Address
730 W Killarney St
Urbana IL 61801-1015
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 6ELN3
- What is CAGE Code 6ELN3?
- 6ELN3 is the unique identifier used by NATO Organizations to reference the physical entity known as Serionix, Inc. located at 730 W Killarney St, Urbana IL 61801-1015, United States.
- Who is CAGE Code 6ELN3?
- 6ELN3 refers to Serionix, Inc. located at 730 W Killarney St, Urbana IL 61801-1015, United States.
- Where is CAGE Code 6ELN3 Located?
- CAGE Code 6ELN3 is located in Urbana, IL, USA.
Contracting History for CAGE 6ELN3 Most Recent 25 Records
- NNX17CJ09C
- Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 26 Sep 2019
- Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CJ09C
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 4 Jun 2018
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CJ09C
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 4 Jun 2018
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0187
- Sbir Phase Ii Contract Nnx17cj09c Fiber-Based Adsorbents Tailored For Plss Ammonia And Formaldehyde Removal Targets Trace Contaminant Removal Needs In The Exploration Space Suit Environment. The Exploration Space Suit Environment Is Extremely Small In Volume, And The Suit Is A Closed Environment With No Fresh Air . Extremely Small Amounts Of Contamination Can Accumulate And Reach Unsafe Levels. The Spacesuit Operating Environment Is Reduced Pressure, And Has Elevated Oxygen Concentrations. The Contaminants Of Greatest Interest Are Ammonia And Formaldehyde. Generation Rates Are Low, Acceptable Levels Of Contamination Are Extremely Low. When The Commercial Crew Program Vehicles Are Docked To The International Space Stations There Is A Risk Of Ammonia Contamination Event. The Space Shuttle Program Had A Requirement For Rapid Emergency Return After An Ammonia Leak On Iss. Today, The Current Ccp Requirements Do Not Have This Requirement Levied On Them. A High Capacity Ammonia Removal Sorbent Is Available In A Porous Cloth Form. This Sow Work Will Include Large-Scale Performance Testing Using The Serionix Ammonia Removal Device, Assessing The Flight Configuration Packaging, Assessing The Flight Material, And Assessing The Procedures And Timeline Of An Ammonia Leak Event. This Work Will Determine The Removal Rates Of The Serionix Technology And Gage The Overall Maturity Of The System.
- 29 Jun 2018
- Sbir Phase Ii Contract Nnx17cj09c Fiber-Based Adsorbents Tailored For Plss Ammonia And Formaldehyde Removal Targets Trace Contaminant Removal Needs In The Exploration Space Suit Environment. The Exploration Space Suit Environment Is Extremely Small In Volume, And The Suit Is A Closed Environment With No Fresh Air . Extremely Small Amounts Of Contamination Can Accumulate And Reach Unsafe Levels. The Spacesuit Operating Environment Is Reduced Pressure, And Has Elevated Oxygen Concentrations. The Contaminants Of Greatest Interest Are Ammonia And Formaldehyde. Generation Rates Are Low, Acceptable Levels Of Contamination Are Extremely Low. When The Commercial Crew Program Vehicles Are Docked To The International Space Stations There Is A Risk Of Ammonia Contamination Event. The Space Shuttle Program Had A Requirement For Rapid Emergency Return After An Ammonia Leak On Iss. Today, The Current Ccp Requirements Do Not Have This Requirement Levied On Them. A High Capacity Ammonia Removal Sorbent Is Available In A Porous Cloth Form. This Sow Work Will Include Large-Scale Performance Testing Using The Serionix Ammonia Removal Device, Assessing The Flight Configuration Packaging, Assessing The Flight Material, And Assessing The Procedures And Timeline Of An Ammonia Leak Event. This Work Will Determine The Removal Rates Of The Serionix Technology And Gage The Overall Maturity Of The System.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $195,000.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CJ09C
- Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 16 Aug 2019
- Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0035
- This Statement Of Work (Sow) Addresses Challenges Encountered During Nasa Development Of Emergency Breathing Respirators. These Respirators Are At Risk Of Rapidly Becoming Obstructed During Fire Scenarios Due To Fouling Of The Hepa Media By Combustion Products. Although The Performance Of Respirators Remains Otherwise Unaffected In This Scenario, They Are Rendered Useless Due To The Increased Resistance To Air Flow. Serionix Previously Sourced, Evaluated, And Recommended A Variety Of Materials For Use As Pre?Filters To Protect The Hepa Media From Fouling As A Subtask Of Phase Iii Contract (#80Jsc017p0016) Ultrafast Adsorptive Air Filters For Nasa Spacecraft Applications. Furthermore, Serionix Exposed Hepa And Pre?Filter Complexes To Challenge Conditions And Measured Permeability After Each Challenge Was Complete. In The Present Work Serionix Will Rigorously Test Several Prefilter Materials Along With Respirator Cartridges Against A Variety Of Challenges. Cartridge Resistance Will Be Measured In Situ, Resulting In Greater Understanding Of The Filter Fouling Process And Relative Benefits Of Each Proposed Prefilter Material.
- 7 Mar 2019
- This Statement Of Work (Sow) Addresses Challenges Encountered During Nasa Development Of Emergency Breathing Respirators. These Respirators Are At Risk Of Rapidly Becoming Obstructed During Fire Scenarios Due To Fouling Of The Hepa Media By Combustion Products. Although The Performance Of Respirators Remains Otherwise Unaffected In This Scenario, They Are Rendered Useless Due To The Increased Resistance To Air Flow. Serionix Previously Sourced, Evaluated, And Recommended A Variety Of Materials For Use As Pre?Filters To Protect The Hepa Media From Fouling As A Subtask Of Phase Iii Contract (#80Jsc017p0016) Ultrafast Adsorptive Air Filters For Nasa Spacecraft Applications. Furthermore, Serionix Exposed Hepa And Pre?Filter Complexes To Challenge Conditions And Measured Permeability After Each Challenge Was Complete. In The Present Work Serionix Will Rigorously Test Several Prefilter Materials Along With Respirator Cartridges Against A Variety Of Challenges. Cartridge Resistance Will Be Measured In Situ, Resulting In Greater Understanding Of The Filter Fouling Process And Relative Benefits Of Each Proposed Prefilter Material.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $149,988.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CJ09C
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 19 Jun 2019
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CJ09C
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- 17 Apr 2017
- Igf::Ot::Igf Development Of Advanced Lightweight Trace Contaminant Control (Tcc) Filters Plays An Important Role In Removing Ammonia And Formaldehyde Contaminants?Both Those Produced By Crew Metabolism And Material/Equipment Off-Gassing Into The Space Suit System For Future Space And Planetary Systems. Serionix Inc. Has Developed Proprietary Adsorptive Coatings Which Can Be Applied On Porous And Nonporous Substrates To Yield Functional Composite Media Capable Of Rapid, Efficient?Adsorption Of Trace Ammonia And Formaldehyde. In Phase I, Research Was Conducted Which Demonstrated Technical Feasibility And Excellent Performance Capacity Of Serionix Single-Pass And Regenerable Adsorbents For Targeted Components Under Simulated Plss Operating Environment. During Phase Ii, We Will Tailor Our Sorbents And Design A Prototype Directly Compatible With Plss Requirements, For Filter Assembly Which Can Be Incorporated Into A Tcc System Or Synergistically Integrated With The Existing Rca Unit. In Addition, We Will Perform Extensive Robustness Testing To Evaluate Media Under Operational And Hazard Scenario Conditions. Successful Implementation Of Our Technology Will Increase Efficiency While Reducing Mass, Volume, And Pressure Drop Of The?Tcc System To Protect The Crew In All Mission Environments And Address A Wide Range Of Current And Future Nasa Requirements.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $750,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0620
- Configuration Testing Of Primary Respirator And Prefilter Elements Against Occlusion By Water Mist And Combustion Products
- 15 Aug 2019
- Configuration Testing Of Primary Respirator And Prefilter Elements Against Occlusion By Water Mist And Combustion Products
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $39,998.00
- National Aeronautics And Space Administration (Nasa)