Draft:NanoTritium Batteries

NanoTritium Batteries
Type	Betavoltaic device
Inception	2008
Manufacturer	City Labs, Inc.
Models made	P100 series
Website	City Labs

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Instructions · What links here · NanoTritium Batteries (talk: + · bio) · (log) · Copyvios report · reFill · Citation Bot · (Search: Google, Bing, Wikipedia) · Submitted 35 days ago by BoulderFalcon (talk: D · +) · Last edited 30 days ago by Citation bot

NanoTritium batteries are ultra-low-power, long-life betavoltaic devices developed by City Labs, Inc. These nanowatt-to-microwatt batteries utilize the natural decay of tritium, a radioactive isotope of hydrogen, to generate continuous power for over 20 years.^[1]

History

The first NanoTritium battery prototypes were developed in 2008 for encryption security memory backup power by City Labs, Inc., a regulatory-licensed R&D and manufacturing facility located in Miami, Florida.^[2] The company originated at Florida International University in 2003 as part of the Office of Entrepreneurial Science founded by current City Labs CEO, Peter Cabauy.^[3] The company was eventually joined by Larry C. Olsen, founder of Betacel, who served as Director of Research.^[4] NanoTritium batteries were released commercially in 2012.^[5] This marked the first time tritium batteries could be purchased without requiring a radiation license.^[6] To date, this is the only General License granted to the betavoltaic industry.^[7]

Technology

NanoTritium batteries employ principles of betavoltaic conversion and radioactive beta decay rather than conventional electrochemical cells to generate power, harnessing electrons released as the contained tritium naturally decays into helium-3, a non-radioactive isotope.^[8] Current models are capable of producing an output voltage of 0.8 to 1.1 V with a current density of 150 nA/cm².^[9] Tritium's 12.32-year half-life and the relatively low amount of radiation emitted allow these batteries to safely output electrical power for decades.^[10] Testing performed by Lockheed Martin during an industry-wide survey found NanoTritium batteries to be resistant to vibration, altitude, and temperatures ranging from -55°C to +150°C.^[11] Repeated temperature cycling has been shown to have no effect on the performance of the batteries.^[12]

While current P100 series NanoTritium batteries are limited to powering low-power microelectronic devices, future batteries are expected to produce a larger power output to expand use cases for higher-power devices.^[1]

Applications

NanoTritium batteries have been employed for various applications where accessibility is limited and long-term power is beneficial, including powering components on COMSEC devices, satellites, unattended sensors, and implantable medical devices.^[13] Despite containing radioactive materials, the batteries are considered safe for implants due to their engineering and inherently low radiation levels, which prevent an individual from receiving a dose higher than the set 15 rem whole body limit even in the event of catastrophic failure.^[14] City Labs is also designing tritium-powered devices for NASA applications, including autonomous sensors for the Moon.^[15]^[16]

References

^ ^a ^b "Tritium Battery Gets NASA's Attention". ASME.
^ "Tritium nanobattery lasts in smaller spaces". EE Times. Retrieved 2024-08-05.
^ "Fast March From Incubator At Fiu To A Milliondollar Military Contract". Miami Today News. 2011-02-03. Retrieved 2024-08-05.
^ "City Labs Welcomes Dr. Larry Olsen, Pioneer of Betavoltaic Technology, to its In-house Research Team". VITA Technologies. Retrieved 2024-08-05.
^ "Homestead's City Labs makes first commercial tritium battery". Miami Herald. Archived from the original on 2018-06-30. Retrieved 2024-08-05.
^ "City Labs, Inc. Releases First Commercially-Available Betavoltaic Product". sUAS News. 2012-06-07. Retrieved 2024-08-05.
^ Zhou, Chunlin. (2021). "Review—Betavoltaic Cell: The Past, Present, and Future". ECS Journal of Solid State Science and Technology. 10 (2): 027005. Bibcode:2021JSSST..10b7005Z. doi:10.1149/2162-8777/abe423. Retrieved 2024-08-05.
^ "South Florida leads with first commercial tritium batteries". Palm Beach Post. 2012-07-26. Retrieved 2024-08-05.
^ "Low Power Radioisotope Conversion Technology and Performance Summary" (PDF). NASA. Retrieved 2024-08-05.
^ "Hello, Spider-Man 2: first commercial tritium battery for sale — with a 20-year life span". VentureBeat. 2012-08-14. Retrieved 2024-08-05.
^ "Commercially-available NanoTritium battery can power microelectronics for 20+ years". New Atlas. 2012-08-14. Retrieved 2024-08-05.
^ Cheu, Darrell. (2017-12-15). "Experiments and modeling on effects of temperature on electrical performance of a betavoltaic". Nuclear Engineering and Design. 325: 256–260. Bibcode:2017NuEnD.325..256C. doi:10.1016/j.nucengdes.2017.06.028. Retrieved 2024-08-05.
^ "City Labs Inc. Company Portfolio Data". SBIR. Retrieved 2024-08-05.
^ "City Labs Registry of Radioactive Sealed Sources and Devices Safety Evaluation" (PDF). NRC. 2010-10-30. Retrieved 2024-08-05.
^ "City Labs Unveils New Tritium-Based Technology to Power Future NASA Missions". SpaceNews. 2023-06-21. Retrieved 2024-08-05.
^ "Autonomous Tritium Micropowered Sensors". NASA. 4 January 2024. Retrieved 2024-08-05.

[ASME-1] "Tritium Battery Gets NASA's Attention". ASME.

[2] "Tritium nanobattery lasts in smaller spaces". EE Times. Retrieved 2024-08-05.

[3] "Fast March From Incubator At Fiu To A Milliondollar Military Contract". Miami Today News. 2011-02-03. Retrieved 2024-08-05.

[4] "City Labs Welcomes Dr. Larry Olsen, Pioneer of Betavoltaic Technology, to its In-house Research Team". VITA Technologies. Retrieved 2024-08-05.

[5] "Homestead's City Labs makes first commercial tritium battery". Miami Herald. Archived from the original on 2018-06-30. Retrieved 2024-08-05.

[6] "City Labs, Inc. Releases First Commercially-Available Betavoltaic Product". sUAS News. 2012-06-07. Retrieved 2024-08-05.

[7] Zhou, Chunlin. (2021). "Review—Betavoltaic Cell: The Past, Present, and Future". ECS Journal of Solid State Science and Technology. 10 (2): 027005. Bibcode:2021JSSST..10b7005Z. doi:10.1149/2162-8777/abe423. Retrieved 2024-08-05.

[8] "South Florida leads with first commercial tritium batteries". Palm Beach Post. 2012-07-26. Retrieved 2024-08-05.

[9] "Low Power Radioisotope Conversion Technology and Performance Summary" (PDF). NASA. Retrieved 2024-08-05.

[10] "Hello, Spider-Man 2: first commercial tritium battery for sale — with a 20-year life span". VentureBeat. 2012-08-14. Retrieved 2024-08-05.

[11] "Commercially-available NanoTritium battery can power microelectronics for 20+ years". New Atlas. 2012-08-14. Retrieved 2024-08-05.

[12] Cheu, Darrell. (2017-12-15). "Experiments and modeling on effects of temperature on electrical performance of a betavoltaic". Nuclear Engineering and Design. 325: 256–260. Bibcode:2017NuEnD.325..256C. doi:10.1016/j.nucengdes.2017.06.028. Retrieved 2024-08-05.

[13] "City Labs Inc. Company Portfolio Data". SBIR. Retrieved 2024-08-05.

[14] "City Labs Registry of Radioactive Sealed Sources and Devices Safety Evaluation" (PDF). NRC. 2010-10-30. Retrieved 2024-08-05.

[15] "City Labs Unveils New Tritium-Based Technology to Power Future NASA Missions". SpaceNews. 2023-06-21. Retrieved 2024-08-05.

[16] "Autonomous Tritium Micropowered Sensors". NASA. 4 January 2024. Retrieved 2024-08-05.

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