# EnduraCure

**Type:** venture
**Status:** Draft
**Confidence:** Medium
**Focus:** degradable polymers, flexible electronics, e-waste, materials science, recyclable substrates
**Stage:** Early-stage spinout; NSF STTR Phase I funded
**Location:** Salt Lake City, UT
**Updated:** 2026-06-19
**Needs-reviewed:** 2026-06-19
**Hero:** https://picsum.photos/seed/enduracure-manufacturing-2026/1600/1100
**Pull:** *Flexible electronics on polymer substrates that perform normally in use but dissolve on demand — unlocking end-of-life recovery of the chips, metals, and materials now buried in e-waste.*
**Relates:** cites [Official Website: EnduraCure](enduracure-official-website.md)

## Summary

EnduraCure is a Salt Lake City startup spun out of Dr. Chen Wang's lab in the Department of Materials Science and Engineering at the University of Utah, founded around 2024. The company is commercializing photocured polymer substrates for flexible electronics that behave like conventional plastics during device use but can be deliberately dissolved in mild chemical baths at end-of-life — allowing recovery of the valuable electronic components (chips, rare metals, displays) embedded in them.

The company was NSF STTR Phase I funded as of the legacy file date. CEO Dennis Pruzan leads the commercialization effort while the underlying chemistry continues development in Chen Wang's lab.

## Impact

Global e-waste is growing faster than the overall economy. Recycling rates are below 20%, and the valuable materials in electronics — rare earths, gold, cobalt, semiconductor-grade silicon — are effectively being landfilled because circuit boards bond electronics to substrates that cannot be cleanly separated without destroying the components. EnduraCure's approach attacks that bonding problem at the substrate level.

If the chemistry works at commercial scale, the first market is medical sensors and wearables — high-value-per-unit electronics with relatively small form factors where recyclability commands premium pricing and regulatory interest. The second-order impact is pressure on the broader consumer electronics industry toward designed-for-recycling substrates, particularly if medical device regulations or EU electronics directives move in that direction.

## What They Are Building

EnduraCure is developing photocured polymer substrates that provide the dimensional stability, thermal and humidity resistance, and fabrication compatibility of conventional flexible electronics substrates, while incorporating a triggered dissolution mechanism. The polymer dissolves cleanly in a mild solvent bath that is not triggered by normal use conditions — sweat, rain, or cleaning. The recovery yield of electronic components from the dissolved substrate needs to be high enough for recycling economics to work at industrial scale.

The Chen Wang lab at the University of Utah is the research base; EnduraCure is the vehicle to bridge from lab chemistry to manufacturable substrate product.

## What They Need Now

Polymer chemists, materials scientists, electronics manufacturing engineers, and business development people who understand the flexible-electronics supply chain. This is an early-stage academic spinout — the team is small, roles are broad, and individual leverage is very high. The right environment for someone who wants to build a new materials company from the ground up rather than join an established manufacturer.

## Who Could Help

University of Utah Technology Licensing Office connections to manage IP licensing; medical device OEM partnerships for first commercial deployments; NSF program officers familiar with Phase II paths for STTR materials bets; and investors experienced with deep materials science companies where the development timelines are long.

## Utah Context

EnduraCure is a direct product of the University of Utah's materials science research enterprise. The U of U has a strong history of spinning out companies from its research labs — particularly in biomedical and materials domains. The [Nucleus Institute](nucleus-institute.md) and related Utah innovation infrastructure provide early-stage support for exactly this kind of university spinout.

## Evidence

- [Official Website: EnduraCure](enduracure-official-website.md)

## See Also

- [Ionic MT](ionic-mt.md) — another Utah advanced materials company building on novel chemistry with domestic supply chain implications.

## Open Questions

- What is the current state of the dissolution chemistry — lab-scale demonstration only, or early prototype substrate samples?
- Has EnduraCure filed any patents on the photocured substrate formulation, and what is the IP position relative to the U of U TLO?
- Which specific flexible electronics applications (medical sensors, smart packaging, wearables) are targeted for first commercial pilot?
- Is Dennis Pruzan still CEO and is the team still Utah-based?
- The placeholder hero should be replaced with a cleared lab or materials image when rights are confirmed.
