Request for Information (RFI) on Biologically-Derived Materials for Transient Propulsion Systems

Tender summary

<p>The Intelligence Advanced Research Projects Activity (IARPA) seeks information&nbsp;regarding&nbsp;the current&nbsp;state of the art&nbsp;(SOTA) in&nbsp;biologically-derived&nbsp;materials suitable for controlled transience in propulsion systems for unmanned aerial vehicles (UAVs). IARPA is interested in understanding how controlled material degradation can be extended beyond structural components to include turbines, engines, motors, and associated propulsion elements.&nbsp;Of particular interest are approaches that move beyond ultraviolet (UV)-initiated or water (H2O)-initiated transience mechanisms&nbsp;and&nbsp;subsequently&nbsp;enable more diverse triggering modalities that are stable in a range of environmental conditions.&nbsp;&nbsp;This RFI is issued for planning purposes only and does not constitute a formal solicitation for proposals or suggest the procurement of any materials, components, or systems.&nbsp;</p> <p>The proliferation of UAV operations across military, intelligence, and civilian domains has raised growing concerns about the environmental footprint of aerospace materials, particularly in scenarios where systems may be lost. Conventional propulsion components,&nbsp;and their controls,&nbsp;fabricated from persistent materials&mdash;metal alloys, engineering plastics, and advanced composites&mdash;can remain in ecosystems for decades or centuries. DARPA&#39;s ICARUS (Inbound, Controlled, Air-Releasable, Unrecoverable Systems) program pioneered a solution for airframe structures by&nbsp;demonstrating&nbsp;transient materials that&nbsp;maintain&nbsp;operational performance before undergoing controlled degradation, thereby minimizing persistent environmental residue. The ICARUS approach employed primarily UV-triggered photopolymers that undergo programmable degradation&nbsp;of structural components,&nbsp;establishing&nbsp;proof-of-concept. However, extending these achievements beyond airframes to propulsion systems&nbsp;and their controls&nbsp;reveals critical limitations: propulsion components operate under extreme thermal, mechanical, and chemical stresses;&nbsp;contain a mixture of material types;&nbsp;must maintain structural integrity throughout dynamic mission profiles; require materials compatible with combustion environments or electromagnetic fields; and face significant challenges when UV initiation serves as the primary degradation trigger within enclosed or shielded propulsion assemblies where UV exposure may be limited or absent. Moreover,&nbsp;there may be operational parameters where natural UV exposure&nbsp;is&nbsp;present.&nbsp;&nbsp;Environmental conditions that naturally&nbsp;degrade materials&mdash;humidity, microbial activity, thermal cycling, oxidation&mdash;are often more readily available than UV exposure, suggesting&nbsp;opportunities for bio-derived materials that&nbsp;leverage&nbsp;natural decomposition pathways&nbsp;to control degradation of an airborne system.&nbsp;</p> <p>Responses to this RFI are due no later than 5:00 p.m. Eastern Time,&nbsp;May 15, 2026. All submissions must be electronically&nbsp;submitted&nbsp;as PDF documents to dni-iarpa-rfi-26-01@iarpa.gov. Inquiries must be&nbsp;submitted&nbsp;to the same address. Do not send questions with proprietary content. No telephone inquiries will be accepted.&nbsp;</p>

What to check before bidding

• Located in United States.
• Source notice ea2620641fc24f78aee63a91244c18cf on SAM.gov.
• Notice published 20 Apr 2026; Tenqual indexed it 22 Apr 2026.
• Deadline listed as 15 May 2026.
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