Sionic Energy, Inc.
Dba Nohms Technologies Inc
CAGE Code: 67DY9
NCAGE Code: 67DY9
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 965730331
Summary
Sionic Energy, Inc., Dba Nohms Technologies Inc is an Active Commercial Supplier with the Cage Code 67DY9 and is tracked by Dun & Bradstreet under DUNS Number 965730331..
Address
1200 Ridgeway Ave Ste 110
Rochester NY 14615-3758
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 67DY9
- What is CAGE Code 67DY9?
- 67DY9 is the unique identifier used by NATO Organizations to reference the physical entity known as Sionic Energy, Inc. Dba Nohms Technologies Inc located at 1200 Ridgeway Ave Ste 110, Rochester NY 14615-3758, United States.
- Who is CAGE Code 67DY9?
- 67DY9 refers to Sionic Energy, Inc. Dba Nohms Technologies Inc located at 1200 Ridgeway Ave Ste 110, Rochester NY 14615-3758, United States.
- Where is CAGE Code 67DY9 Located?
- CAGE Code 67DY9 is located in Rochester, NY, USA.
Contracting History for CAGE 67DY9 Most Recent 25 Records
- 80NSSC19C0123
- Safe, High Energy Batteries For Space Suits
- 1 Dec 2020
- Safe, High Energy Batteries For Space Suits
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,994.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0123
- Safe, High Energy Batteries For Space Suits
- 31 Jul 2019
- Safe, High Energy Batteries For Space Suits
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,994.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18P1959
- A New Generation Of Spacesuits Is Needed To Support Evas For Future Surface Exploration Missions. These New Suits Will Require Decreased Mass And Volume, Improved Functionality, And Excellent Reliability. More Power Is Required Than Today S Suit Can Provide. The Battery Pack Will Be The Main Source Of Power And Weight And Needs To Provide An Energy Source For Life-Support Functions, Communications, System Health Status, And Other Needs. In Addition, The Battery Must Operate Safely Under Harsh Conditions Of Extreme Temperatures, Mechanical Injury, And Tolerate Radiation. Nohms Technologies Is Proposing To Develop Ionic Liquid Based Hybrid Electrolytes For Safe, High Energy Density, High Voltage, And High Power Batteries For Space Suit Applications. Nohms Will Develop A Safe Electrolyte For Licoo2 That Prevents Thermal Runaway And Allows Licoo2 To Be Charged At A Higher Voltage Resulting In Higher Capacity. Rechargeable Lithium Ion Batteries (Li-Ion) Are Promising Energy Storage Options For Space Applications. When Charged To 4.2V Licoo2 Delivers 140 Mah/G Specific Capacity, Which Is Only 51% Of The Theoretically Possible (272 Mah/G) Based On The Crystal Structure And Allowable Li-Ions It Can Host. To Extract The Unutilized Capacity From The Licoo2, One Has To Electrochemically Activate The Cathode By Charging To A Potential>4.5 V Vs Li/Li+. It Has Been Shown That The High Voltage Charging Of Licoo2 Results In 28% Increase In Delivered Capacity And 4% Increase In The Nominal Voltage. However, Conventional Li-Ion Battery Electrolytes Are Not Stable At Such High Voltages And Complementary Development Of Electrolytes That Are Stable At These Voltages Are Needed. In This Phase I, We Will Design Electrolytes With Functional Ionic Liquids And Co-Solvents To Enable A High Voltage, Thermally Stable And Electrolyte Formulation For Traditional Licoo2 Cathode Materials.
- 26 Jul 2018
- A New Generation Of Spacesuits Is Needed To Support Evas For Future Surface Exploration Missions. These New Suits Will Require Decreased Mass And Volume, Improved Functionality, And Excellent Reliability. More Power Is Required Than Today S Suit Can Provide. The Battery Pack Will Be The Main Source Of Power And Weight And Needs To Provide An Energy Source For Life-Support Functions, Communications, System Health Status, And Other Needs. In Addition, The Battery Must Operate Safely Under Harsh Conditions Of Extreme Temperatures, Mechanical Injury, And Tolerate Radiation. Nohms Technologies Is Proposing To Develop Ionic Liquid Based Hybrid Electrolytes For Safe, High Energy Density, High Voltage, And High Power Batteries For Space Suit Applications. Nohms Will Develop A Safe Electrolyte For Licoo2 That Prevents Thermal Runaway And Allows Licoo2 To Be Charged At A Higher Voltage Resulting In Higher Capacity. Rechargeable Lithium Ion Batteries (Li-Ion) Are Promising Energy Storage Options For Space Applications. When Charged To 4.2V Licoo2 Delivers 140 Mah/G Specific Capacity, Which Is Only 51% Of The Theoretically Possible (272 Mah/G) Based On The Crystal Structure And Allowable Li-Ions It Can Host. To Extract The Unutilized Capacity From The Licoo2, One Has To Electrochemically Activate The Cathode By Charging To A Potential>4.5 V Vs Li/Li+. It Has Been Shown That The High Voltage Charging Of Licoo2 Results In 28% Increase In Delivered Capacity And 4% Increase In The Nominal Voltage. However, Conventional Li-Ion Battery Electrolytes Are Not Stable At Such High Voltages And Complementary Development Of Electrolytes That Are Stable At These Voltages Are Needed. In This Phase I, We Will Design Electrolytes With Functional Ionic Liquids And Co-Solvents To Enable A High Voltage, Thermally Stable And Electrolyte Formulation For Traditional Licoo2 Cathode Materials.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,986.00
- National Aeronautics And Space Administration (Nasa)
- NNX15CC07C
- Igf::Ot::Igf Nohms Propose To Develop, Demonstrate, And Deliver High Energy, Lightweight, Safe Lithium Sulfur (Li-S) Batteries For Use In Space Applications. During The Phase Ii Project, Nohms Technologies Pursue Approaches For Enhancing Energy Density, Safety, And Manufacturability Of Larger-Format Pouch Cells Based On The Most Promising Electrode And Electrolyte Compositions Identified In Phase 1. We Will Demonstrate Benchmarked Improvements In Performance And Safety Metrics In 2 To 4 Ah Cells That Will Be Tested And Integrated Into Space Applications Such As Space Suits. Nohms Will Provide Full Cells To Demonstrate The Feasibility Of Our System To Meet Nasa's 'Far Term Mission' Specific Energy And Energy Density Goals. The Battery Technology Under Development By Nohms Is Capable Of Delivering Batteries With Specific Energies That Are Two Times Higher Than Today's State Of The Art Li-Ion Battery Systems. For Nasa Missions, This Can Be Translated Into Increased Operational Range, Functionality, Or Payload Capabilities And Significantly Reduced Operational Cost.
- 12 Jun 2018
- Igf::Ot::Igf Nohms Propose To Develop, Demonstrate, And Deliver High Energy, Lightweight, Safe Lithium Sulfur (Li-S) Batteries For Use In Space Applications. During The Phase Ii Project, Nohms Technologies Pursue Approaches For Enhancing Energy Density, Safety, And Manufacturability Of Larger-Format Pouch Cells Based On The Most Promising Electrode And Electrolyte Compositions Identified In Phase 1. We Will Demonstrate Benchmarked Improvements In Performance And Safety Metrics In 2 To 4 Ah Cells That Will Be Tested And Integrated Into Space Applications Such As Space Suits. Nohms Will Provide Full Cells To Demonstrate The Feasibility Of Our System To Meet Nasa's 'Far Term Mission' Specific Energy And Energy Density Goals. The Battery Technology Under Development By Nohms Is Capable Of Delivering Batteries With Specific Energies That Are Two Times Higher Than Today's State Of The Art Li-Ion Battery Systems. For Nasa Missions, This Can Be Translated Into Increased Operational Range, Functionality, Or Payload Capabilities And Significantly Reduced Operational Cost.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $879,900.00
- National Aeronautics And Space Administration (Nasa)
- FA865018P2006
- Igf: :Ot: :Igf Lithium Metal Or Li-Ion Battery Using Nonflammable,Room-Temperature Ionic Liquid Or Solid Electro
- 2 Apr 2018
- Igf: :Ot: :Igf Lithium Metal Or Li-Ion Battery Using Nonflammable,Room-Temperature Ionic Liquid Or Solid Electro
- Fa8650 Usaf Afmc Afrl/Rqk
- Department Of Defense (Dod)
- $149,999.00
- Department Of Defense (Dod)
- 80NSSC18P1959
- A New Generation Of Spacesuits Is Needed To Support Evas For Future Surface Exploration Missions. These New Suits Will Require Decreased Mass And Volume, Improved Functionality, And Excellent Reliability. More Power Is Required Than Today S Suit Can Provide. The Battery Pack Will Be The Main Source Of Power And Weight And Needs To Provide An Energy Source For Life-Support Functions, Communications, System Health Status, And Other Needs. In Addition, The Battery Must Operate Safely Under Harsh Conditions Of Extreme Temperatures, Mechanical Injury, And Tolerate Radiation. Nohms Technologies Is Proposing To Develop Ionic Liquid Based Hybrid Electrolytes For Safe, High Energy Density, High Voltage, And High Power Batteries For Space Suit Applications. Nohms Will Develop A Safe Electrolyte For Licoo2 That Prevents Thermal Runaway And Allows Licoo2 To Be Charged At A Higher Voltage Resulting In Higher Capacity. Rechargeable Lithium Ion Batteries (Li-Ion) Are Promising Energy Storage Options For Space Applications. When Charged To 4.2V Licoo2 Delivers 140 Mah/G Specific Capacity, Which Is Only 51% Of The Theoretically Possible (272 Mah/G) Based On The Crystal Structure And Allowable Li-Ions It Can Host. To Extract The Unutilized Capacity From The Licoo2, One Has To Electrochemically Activate The Cathode By Charging To A Potential≫4.5 V Vs Li/Li+. It Has Been Shown That The High Voltage Charging Of Licoo2 Results In 28% Increase In Delivered Capacity And 4% Increase In The Nominal Voltage. However, Conventional Li-Ion Battery Electrolytes Are Not Stable At Such High Voltages And Complementary Development Of Electrolytes That Are Stable At These Voltages Are Needed. In This Phase I, We Will Design Electrolytes With Functional Ionic Liquids And Co-Solvents To Enable A High Voltage, Thermally Stable And Electrolyte Formulation For Traditional Licoo2 Cathode Materials.
- 11 Feb 2019
- A New Generation Of Spacesuits Is Needed To Support Evas For Future Surface Exploration Missions. These New Suits Will Require Decreased Mass And Volume, Improved Functionality, And Excellent Reliability. More Power Is Required Than Today S Suit Can Provide. The Battery Pack Will Be The Main Source Of Power And Weight And Needs To Provide An Energy Source For Life-Support Functions, Communications, System Health Status, And Other Needs. In Addition, The Battery Must Operate Safely Under Harsh Conditions Of Extreme Temperatures, Mechanical Injury, And Tolerate Radiation. Nohms Technologies Is Proposing To Develop Ionic Liquid Based Hybrid Electrolytes For Safe, High Energy Density, High Voltage, And High Power Batteries For Space Suit Applications. Nohms Will Develop A Safe Electrolyte For Licoo2 That Prevents Thermal Runaway And Allows Licoo2 To Be Charged At A Higher Voltage Resulting In Higher Capacity. Rechargeable Lithium Ion Batteries (Li-Ion) Are Promising Energy Storage Options For Space Applications. When Charged To 4.2V Licoo2 Delivers 140 Mah/G Specific Capacity, Which Is Only 51% Of The Theoretically Possible (272 Mah/G) Based On The Crystal Structure And Allowable Li-Ions It Can Host. To Extract The Unutilized Capacity From The Licoo2, One Has To Electrochemically Activate The Cathode By Charging To A Potential≫4.5 V Vs Li/Li+. It Has Been Shown That The High Voltage Charging Of Licoo2 Results In 28% Increase In Delivered Capacity And 4% Increase In The Nominal Voltage. However, Conventional Li-Ion Battery Electrolytes Are Not Stable At Such High Voltages And Complementary Development Of Electrolytes That Are Stable At These Voltages Are Needed. In This Phase I, We Will Design Electrolytes With Functional Ionic Liquids And Co-Solvents To Enable A High Voltage, Thermally Stable And Electrolyte Formulation For Traditional Licoo2 Cathode Materials.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,986.00
- National Aeronautics And Space Administration (Nasa)
- NNX15CC07C
- Igf::Ot::Igf Nohms Propose To Develop, Demonstrate, And Deliver High Energy, Lightweight, Safe Lithium Sulfur (Li-S) Batteries For Use In Space Applications. During The Phase Ii Project, Nohms Technologies Pursue Approaches For Enhancing Energy Density, Safety, And Manufacturability Of Larger-Format Pouch Cells Based On The Most Promising Electrode And Electrolyte Compositions Identified In Phase 1. We Will Demonstrate Benchmarked Improvements In Performance And Safety Metrics In 2 To 4 Ah Cells That Will Be Tested And Integrated Into Space Applications Such As Space Suits. Nohms Will Provide Full Cells To Demonstrate The Feasibility Of Our System To Meet Nasa's 'Far Term Mission' Specific Energy And Energy Density Goals. The Battery Technology Under Development By Nohms Is Capable Of Delivering Batteries With Specific Energies That Are Two Times Higher Than Today's State Of The Art Li-Ion Battery Systems. For Nasa Missions, This Can Be Translated Into Increased Operational Range, Functionality, Or Payload Capabilities And Significantly Reduced Operational Cost.
- 6 Sep 2018
- Igf::Ot::Igf Nohms Propose To Develop, Demonstrate, And Deliver High Energy, Lightweight, Safe Lithium Sulfur (Li-S) Batteries For Use In Space Applications. During The Phase Ii Project, Nohms Technologies Pursue Approaches For Enhancing Energy Density, Safety, And Manufacturability Of Larger-Format Pouch Cells Based On The Most Promising Electrode And Electrolyte Compositions Identified In Phase 1. We Will Demonstrate Benchmarked Improvements In Performance And Safety Metrics In 2 To 4 Ah Cells That Will Be Tested And Integrated Into Space Applications Such As Space Suits. Nohms Will Provide Full Cells To Demonstrate The Feasibility Of Our System To Meet Nasa's 'Far Term Mission' Specific Energy And Energy Density Goals. The Battery Technology Under Development By Nohms Is Capable Of Delivering Batteries With Specific Energies That Are Two Times Higher Than Today's State Of The Art Li-Ion Battery Systems. For Nasa Missions, This Can Be Translated Into Increased Operational Range, Functionality, Or Payload Capabilities And Significantly Reduced Operational Cost.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $879,900.00
- National Aeronautics And Space Administration (Nasa)