Chemical and Biological Defense
Accelerate Far Forward Manufacturing (FFM) of Chemical, Biological, Radiological, and Nuclear (CBRN) sensors. CBRN sensor products should be minimal size, weight, and power economic, while detecting and transmitting threat awareness in near real-time to the warfighter. The ability to create these d
Chemical and Biological Defense
Develop a portable, high-performance BOND system for point-of-care protein production by maximizing protein purity, potency, and quality. This can be achieved through automated process control, incorporating soft sensors, machine learning, and real-time data analytics to predictively and autonomousl
Chemical and Biological Defense
Develop novel, shelf-stable reagents for nucleic acid synthesizers that enable the creation of high-quality oligonucleotides for rapid diagnostic test (RDT) development at the point of need in 30 days in a far-forward, expeditionary environment | Program: SBIR | Topic: CBD254-010 | Solicitation: DoD
Chemical and Biological Defense
A tactical tool or capability to increase situational awareness and enhance decision support of Warfighters operating in Chemical and Biological (CB) contested environments. The innovative technology proposed should work within Human Machine Interface (HMI) concepts to provide significant advantage
Chemical and Biological Defense
Develop low size, weight, power, and cost (SWaP-C) microsensor for chemical threats that can be easily distributed and networked to support integrated early warning. | Program: SBIR | Topic: CBD254-007 | Solicitation: DoD SBIR 2025.4 | Keywords: Chemical detection, threat detection, microsensors, mi
Chemical and Biological Defense
This topic seeks disruptive technologies applied to the development of physically semi-porous flexible coupons (e.g. paper or polymer with plasmonic nanoparticles) to sample from a range of smooth and rough or abrasive surfaces found in operational environments using Surface Enhanced Raman Spectrosc
Chemical and Biological Defense
Develop a rugged, 3D printable PFAS-free particulate filtration impactor system that readily attaches to a respirator/mask and is suitable for extended wear in military operational environments with high particulate matter levels during aerobic activity. | Program: SBIR | Topic: CBD254-005 | Solicit
Chemical and Biological Defense
Develop an immune microphysiological systems (iMPS) for the evaluation and development of vaccines against high consequence pathogens. iMPS may include, but are not limited to, immune organoid, organ-tissue equivalent, microfluidic chips, or similar systems as well as single or multiple organ models