Dioxide Materials, Inc.
CAGE Code: 5JJW1
NCAGE Code: 5JJW1
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 831012732
Summary
Dioxide Materials, Inc. is an Active Commercial Supplier with the Cage Code 5JJW1 and is tracked by Dun & Bradstreet under DUNS Number 831012732..
Address
1100 Holland Dr
Boca Raton FL 33487-2701
United States
Points of Contact
Related Information
People who viewed this 'CAGE Code' also viewed...
Arnold-Hanafin Corporation Met Rx Usa Inc Astra Defense Llc The Guzy Group, Llc Chelsea Financial Solutions Llc Global Imports Fl Llc Maury Enterprises Inc Jewels C D M Inc Ideal Unlimited, Llc Lees Moving And Storage Inc Intraco Systems Inc Stockbridge 175 Mp Rk6, Llc Ftm Import Export Company Llc Odp Business Solutions, Llc Boca Micro Techboca Micro Tech Paradise Shine Cleaning Llc Mp Industries Inc Portatemp Usa Inc Kcl Manufacturing, Llc Pura Market Llc
Frequently Asked Questions (FAQ) for CAGE 5JJW1
- What is CAGE Code 5JJW1?
- 5JJW1 is the unique identifier used by NATO Organizations to reference the physical entity known as Dioxide Materials, Inc. located at 1100 Holland Dr, Boca Raton FL 33487-2701, United States.
- Who is CAGE Code 5JJW1?
- 5JJW1 refers to Dioxide Materials, Inc. located at 1100 Holland Dr, Boca Raton FL 33487-2701, United States.
- Where is CAGE Code 5JJW1 Located?
- CAGE Code 5JJW1 is located in Boca Raton, FL, USA.
Contracting History for CAGE 5JJW1 Most Recent 25 Records
- W911NF20P0065
- Generating Formate From Co2 On-Site
- 24 Aug 2020
- Generating Formate From Co2 On-Site
- W6qk Acc-Apg Durham
- Department Of Defense (Dod)
- $111,500.00
- Department Of Defense (Dod)
- 80NSSC18P1937
- The Objective Of This Proposal Is To Adapt The Co2 Electrolyzers Currently Being Developed Under Arpa-E Support To Nasa Missions. The Devices Are Similar To A Solid Oxide Electrolyzer, In That They Can Operate On Dry Co2, But The Devices Use A Proprietary Polymer Rather Than A Solid Oxide To Allow Them To Operate At Room Temperature (~25 C). In Arpa-E Supported Work, We Have Already Demonstrated Co2 Electrolysis For 3000 Hours And 95% Selectivity Under Wet Conditions And 100 Hours With A Dry Cathode. 5000 Hour Tests Are Scheduled Shortly. In The Proposed Work, We Will Adapt The Devices To Nasa Missions. In Particular, We Will Modify Our Membranes So They Can Be Run With Minimal Water, Improve Strength To Allow Higher Differential Pressure Operation, And Complete The Various Tests Requested In The Baa.
- 8 Feb 2019
- The Objective Of This Proposal Is To Adapt The Co2 Electrolyzers Currently Being Developed Under Arpa-E Support To Nasa Missions. The Devices Are Similar To A Solid Oxide Electrolyzer, In That They Can Operate On Dry Co2, But The Devices Use A Proprietary Polymer Rather Than A Solid Oxide To Allow Them To Operate At Room Temperature (~25 C). In Arpa-E Supported Work, We Have Already Demonstrated Co2 Electrolysis For 3000 Hours And 95% Selectivity Under Wet Conditions And 100 Hours With A Dry Cathode. 5000 Hour Tests Are Scheduled Shortly. In The Proposed Work, We Will Adapt The Devices To Nasa Missions. In Particular, We Will Modify Our Membranes So They Can Be Run With Minimal Water, Improve Strength To Allow Higher Differential Pressure Operation, And Complete The Various Tests Requested In The Baa.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $125,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18P1937
- The Objective Of This Proposal Is To Adapt The Co2 Electrolyzers Currently Being Developed Under Arpa-E Support To Nasa Missions. The Devices Are Similar To A Solid Oxide Electrolyzer, In That They Can Operate On Dry Co2, But The Devices Use A Proprietary Polymer Rather Than A Solid Oxide To Allow Them To Operate At Room Temperature (~25 C). In Arpa-E Supported Work, We Have Already Demonstrated Co2 Electrolysis For 3000 Hours And 95% Selectivity Under Wet Conditions And 100 Hours With A Dry Cathode. 5000 Hour Tests Are Scheduled Shortly. In The Proposed Work, We Will Adapt The Devices To Nasa Missions. In Particular, We Will Modify Our Membranes So They Can Be Run With Minimal Water, Improve Strength To Allow Higher Differential Pressure Operation, And Complete The Various Tests Requested In The Baa.
- 15 Jul 2018
- The Objective Of This Proposal Is To Adapt The Co2 Electrolyzers Currently Being Developed Under Arpa-E Support To Nasa Missions. The Devices Are Similar To A Solid Oxide Electrolyzer, In That They Can Operate On Dry Co2, But The Devices Use A Proprietary Polymer Rather Than A Solid Oxide To Allow Them To Operate At Room Temperature (~25 C). In Arpa-E Supported Work, We Have Already Demonstrated Co2 Electrolysis For 3000 Hours And 95% Selectivity Under Wet Conditions And 100 Hours With A Dry Cathode. 5000 Hour Tests Are Scheduled Shortly. In The Proposed Work, We Will Adapt The Devices To Nasa Missions. In Particular, We Will Modify Our Membranes So They Can Be Run With Minimal Water, Improve Strength To Allow Higher Differential Pressure Operation, And Complete The Various Tests Requested In The Baa.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $125,000.00
- National Aeronautics And Space Administration (Nasa)