A biohydrogel battery
8.0
来源:
Cell
发布时间:
2025-09-02 03:30
摘要:
A novel biohydrogel battery (BHB) has been developed, showcasing significant potential for biomedical applications. The BHB, fabricated through photopolymerizing 3D printing, demonstrates dual-current modes that support tissue regeneration and cardiac pacing. Its mechanical properties align with biological tissues, enhancing its suitability for implantation. In vivo studies indicate effective wound healing and cardiac function restoration, marking a promising advancement in bioelectronics. The BHB's biodegradability and biocompatibility further position it as a viable solution for transient medical devices.
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价值维度分析
domain_focus
1.0
business_impact
1.0
scientific_rigor
1.5
timeliness_innovation
1.5
investment_perspective
2.5
market_value_relevance
1.0
team_institution_background
0.5
technical_barrier_competition
0.5
关键证据
The BHB can support microcurrents for tissue regeneration and high currents for cardiac pacing.
The BHB exhibits mechanical properties comparable to biological tissues.
The study highlights the BHB's potential for applications in cardiac resuscitation and wound healing.
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AI评分总结
A novel biohydrogel battery (BHB) has been developed, showcasing significant potential for biomedical applications. The BHB, fabricated through photopolymerizing 3D printing, demonstrates dual-current modes that support tissue regeneration and cardiac pacing. Its mechanical properties align with biological tissues, enhancing its suitability for implantation. In vivo studies indicate effective wound healing and cardiac function restoration, marking a promising advancement in bioelectronics. The BHB's biodegradability and biocompatibility further position it as a viable solution for transient medical devices.