Key Takeaways:
- 1. Researchers led by Deblina Sarkar have developed microscopic electronic devices hybridized with living cells for brain implants that can be injected into the circulatory system.
- 2. The technology faced initial rejection but eventually received funding after solving difficult problems in creating functional electronic devices smaller than cells.
- 3. The devices can generate electrical power from light and perform computations for intelligent applications like sensing.
A team of researchers, led by Deblina Sarkar, has developed brain implants that can be injected into the bloodstream using living cells hybridized with microscopic electronic devices. Despite initial skepticism and rejections, the technology eventually secured funding after solving challenges in creating tiny functional electronic devices. These devices, smaller than cells, can generate electrical power from light and perform computations for advanced applications like sensing.
Insight: The breakthrough technology of brain implants using living cells and microscopic electronic devices represents a significant advancement in the field, overcoming challenges and offering promising possibilities for future applications.
This article was curated by memoment.jp from the feed source: Ars Technica.
Read the original article here: https://arstechnica.com/science/2025/11/tiny-chips-hitch-a-ride-on-immune-cells-to-sites-of-inflammation/
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