https://www.mntusa.com/new-index daily 0.75 2016-11-14 https://www.mntusa.com/awards-collection daily 0.75 2026-03-16 https://www.mntusa.com/awards-collection/2026/3/16/micro-nano-technologies-selected-for-office-of-naval-research-sbir-award monthly 0.5 2026-03-16 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1b152f45-5609-4ec7-9616-b2bb4d1eb909/9DC4AA8E-EDE4-4773-9702-9DE274944E4E.png Awards - Micro Nano Technologies Selected for US Navy (ONR) Phase II SBIR Award - ONR Phase II SBIR Award ONR Phase II SBIR Award In the proposed Phase II effort, a working prototype of the system will be built, and its reliable operation will be demonstrated to prove its capability to reduce shipboard HVAC power consumption at a variety of inlet air conditions, at design (tropical, summer, and winter) and off-design conditions. This system, sized for an airflow of 2000 cubic feet per minute (cfm), will have 10-tons cooling capacity when subjected to summer design conditions and 30 kilowatts (kW) heating capacity at winter design conditions. The system will be designed to meet all geometrical, piping, electrical, and electronics interfaces within the navy shipboard environment. The system will also be mechanically tested (shock, vibration, hazard, etc.) to ensure its compliance with the applicable MIL standards. If successful, these efforts will demonstrate the functionality and performance of a compact, efficient absorption dehumidification and heating system optimized for operation within the high latent loads present in shipboard operations. Additionally, the system does not use GWP refrigerants and could increase shipboard IAQ and reduce humidity-driven failure of shipboard equipment. https://www.mntusa.com/awards-collection/2024/7/15/usda-phase-i-sbir monthly 0.5 2024-07-16 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/672072b8-4a88-4f77-be98-822ae79147ff/5AF18206-22D5-42FB-86C5-BB63C2898937.jpeg Awards - Micro Nano Technologies Awarded USDA Phase I SBIR Funding - USDA Phase I SBIR Micro Nano Technologies was one of seventy-six winners of the USDA Phase I SBIR award for our Solar-Powered Efficient Dryer for Crop Preservation, Conditioning, and Storage. This funding is given to support the conducting of “high-quality research that addresses critical scientific challenges and opportunities in agriculture.” We are excited and honored to receive this award and look forward to further collaboration with USDA in bringing this cutting-edge technology to market. https://www.mntusa.com/awards-collection/2024/7/15/micro-nano-technologies-receives-doe-funding-for-paper-and-forest-product-decarbonization monthly 0.5 2024-07-15 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/39061480-3363-4f8c-8bf9-50f472a58d20/07CA0E46-F83E-40B9-BA21-ACDF424A2D6F.jpeg Awards - Micro Nano Technologies Receives DOE Funding for Paper and Forest Product Decarbonization - DOE Industrial Decarbonization As part of the Department of Energy’s investment in the decarbonization of American industry, Micro Nano Technologies was selected as one of six organizations tasked with reducing “net energy GHG emissions in the paper and forest products industry.” This funding highlights the versatility of Micro Nano Technologies’ absorption technology and its many possible applications. https://www.mntusa.com/awards-collection/2024/7/15/micro-nano-technologies-selected-for-office-of-naval-research-sbir-award monthly 0.5 2026-03-16 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1b152f45-5609-4ec7-9616-b2bb4d1eb909/9DC4AA8E-EDE4-4773-9702-9DE274944E4E.png Awards - Micro Nano Technologies Selected for Office of Naval Research SBIR Award - ONR Phase I SBIR Award The Office for Naval Research identified Micro Nano Technologies and our heat transfer technology as an attractive partner to develop technology that will reduce energy consumption on the Navy’s ships. https://www.mntusa.com/awards-collection/2024/7/16/micro-nano-technologies-wins-funding-award-from-qatar-research-development-and-innovation-council monthly 0.5 2024-07-17 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1721139557768-637GCAODOY315O6WW75T/18ADB48B-46ED-43A9-8A1D-1548B5DAF62F.jpg Awards - Micro Nano Technologies Wins Funding Award from Qatar Research, Development and Innovation Council - QRDI Innovation Award Micro Nano Technologies was selected to work with Hassad Food in Qatar on “Atmospheric Water Harvesting in Harsh Environments.” MNT’s transformative technology will be utilized to extract water from the atmosphere in notoriously water-scarce areas, decreasing reliance on desalination and increasing agricultural productivity in the country. https://www.mntusa.com/awards-collection/2024/7/15/micro-nano-technologies-named-as-winners-of-dhs-cooling-solutions-challenge monthly 0.5 2024-07-15 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1721069711901-B0D08VKZCYNIKPCQUNW2/DHS-Logo.wine.jpg Awards - Micro Nano Technologies Named as Winners of DHS Cooling Solutions Challenge - DHS Cooling Solutions Challenge Micro Nano Technologies has been selected as a winner of the Department of Homeland Security Cooling Solutions Challenge to identify innovations to counter extreme heat. MNT was chosen as a winner in the “Use Case” category for our Fuel-Flexible Ultra-Efficient Air Conditioning System for Improved Resilience that can be used to cool household, group quarter or multi-person units. https://www.mntusa.com/awards-collection/2024/7/18/micro-nano-technologies-receives-funding-from-arpa-e-seed-program monthly 0.5 2024-07-18 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/cadb5968-454d-49cd-830d-caf9d7e53311/Logos.jpg Awards - Micro Nano Technologies Receives Funding from ARPA-E SEED Program - ARPA-E SEED Micro Nano Technologies was identified by the Department of Energy as a forerunner in the development of energy-efficient drying technology. Through this funding, MNT will continue its development of MNT’s thermally driven industrial semi-open absorption heat pump dryer that holds the potential to revolutionize drying processes and accelerate decarbonization https://www.mntusa.com/awards-collection/2024/7/18/micro-nano-technologies-chosen-as-part-of-nyserda-nextgen-hvac-technology-program monthly 0.5 2026-03-16 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/b3772644-20ad-4ea4-b6ee-4133346a8b3b/1721315131194-56f2fa0a-e113-4af4-8a73-7743f4d1a89a_1.jpg Awards - Micro Nano Technologies Chosen as Part of NYSERDA NextGen HVAC Technology Program - NYSERDA NextGen The state of New York’s interest in reducing carbon emissions from the building sector while continuing to meet its needs has led to a partnership between NYSERDA and Micro Nano Technologies. This funding will support MNT’s New Generation Ultra-Efficient Separate Sensible and Latent Cooling Air-Conditioning system that has the ability to meet cooling demands and lower energy demands in climate zones across the country. https://www.mntusa.com/read-me daily 0.75 2026-03-17 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1479476549049-1O0NQYLY9AJ5SRID3BKY/melting-earth_climate-change_Thomas-Vogel_GettyImages-157581491.jpg Absorption Technology https://www.mntusa.com/home daily 1.0 2025-09-30 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1479149862120-4XH5BO6ED1I1YE8HDNUQ/3.jpg Home https://www.mntusa.com/contact-us daily 0.75 2016-11-18 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1479476303208-ZOMTML5EFV22EBDT85VI/HdkXKa8ppA.jpg Contact Us https://www.mntusa.com/dehumidificationcooling daily 0.75 2019-04-01 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1554131015700-RO8TQQEN80LYYU0IQ56E/image-asset.jpeg Thermal Management https://www.mntusa.com/publications daily 0.75 2025-10-27 https://www.mntusa.com/technology daily 0.75 2024-11-05 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/2f40d31c-42b7-4ba6-8932-d3418a33a6c4/Fix+2.png Technology - Absorption Technology Our absorption technology demonstrates the ability to provide efficient dehumidification, drying, cooling, and heating across a variety of applications from industrial drying to water heating. This technology offers unmatched scalability and performance using a semi-open absorption cycle, ionic liquid desiccants, and compact modular plate and frame heat and mass exchangers. The semi-open cycle allows for system configuration that address specific applications, while minimizing heat loss and increasing system performance. Ionic liquid desiccants eliminate crystallization concerns associated with brine desiccants, increasing the system’s operational range and eliminating the need for costly controls. The use of compact plate and frame heat and mass exchangers allows for system scalability while still maintaining a small footprint. https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/f60373a0-a333-4160-8e48-b812d0e5d67d/MHS-Parallel-schematic-cropped+5000.jpg Technology - Thermal Management Our two-phase cooling technology demonstrates the ability to achieve extraordinary levels of cooling needed for the next generation of electronics ranging from 1 to 2 kW/cm² at the die level with heat transfer coefficients approaching 2 MW/m² K using water as the working fluid. Our new approach fundamentally alters the dynamics of the boiling process by utilizing surface tension and pressure forces. This makes viable thermal management platforms involving large chips and systems with numerous heat sinks connected to a liquid supply line operating at 0-100% heat load without interfering with the performance of one another. The exit vapor quality remains at 100% regardless of heat input. The heat sinks, operating at theoretically minimum flow rates, require pumping power two orders of magnitude less than that of other heat sinks. https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/fd78b6f6-4b05-4d43-8f1f-bf4437f5fb80/Three-Stage+WAK.jpg Technology - Kidney Dialysis Our proposed dialysate-free system incorporates an innovative microfluidic dialyzer, and electrolyte- and water-recovery technology to imitate kidney function without external dialysate fluid reliance. Using battery power for portability, this compact design not only minimizes energy consumption—up to 30 times less than standard hemodialysis machines—but also enhances patient mobility and access in diverse settings. Miniaturized components, continuous physiological monitoring, and responsive electrolyte and water recovery ensure patient safety and precise hydration control, making this a transformative step in dialysis care. The system’s microfluidic circuit enables efficient filtration and electrolyte recovery, producing minimal waste while adjusting to patient conditions and blood pressure fluctuations, ensuring stable operation and optimized fluid balance. https://www.mntusa.com/capability-statement daily 0.75 2025-10-30 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/ad7f09f9-2133-4a61-9d20-6a9292d7cf8a/Capability_Statement_10-30-2024.jpg Capability Statement - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.mntusa.com/medical-solutions daily 0.75 2024-11-06 https://images.squarespace-cdn.com/content/v1/5829cafcd482e98c45939dcd/1730917907971-E27H58OTOZU9KVW1GIPO/Screen+Shot+2024-11-05+at+6.00.31+PM.png Medical Solutions https://www.mntusa.com/home-alt-bedford daily 0.75 2025-05-09 https://images.squarespace-cdn.com/content/v1/52a74d9ae4b0253945d2aee9/1390500612440-PGQSIY8KL9F7T5VIXQLO/chambers-2.jpg Home Alt A better world Starts with a choice Contact Us https://images.squarespace-cdn.com/content/v1/52a74d9ae4b0253945d2aee9/1390500503574-5BAPXZO9U06UV61P49UO/chambers1.jpg Home Alt Sustainability Starts with you Join Us https://images.squarespace-cdn.com/content/v1/52a74d9ae4b0253945d2aee9/1390500933384-LII4SRIPHFYOUFX0UCXC/chambers-4.jpg Home Alt A better world Starts with a choice Join Us https://images.squarespace-cdn.com/content/v1/52a74d9ae4b0253945d2aee9/1390504287124-HQ8GNX1JCE22V047MSQ9/chambers-8.jpg Home Alt Preserve Nature Join Us