论文信息 - A MEMS-enabled biodegradable battery for powering transient implantable devices

A MEMS-enabled biodegradable battery for powering transient implantable devices

Active implantable medical devices (IMD) for the monitoring and treatment of transient disease states have garnered increasing interest in the medical research community. In order for these technologies to be fully viable, they require a similarly biodegradable energy source. This study presents a series of MEMS-enabled biodegradable batteries comprising Mg anodes and Fe cathodes in a 0.1 M MgCl2 electrolyte. The anode was fabricated by electroplating Mg from a non-aqueous solution and passivated with either polycaprolactone or poly(glycerol-sebacate). Mg anodes coated with the biodegradable polymers hindered parasitic corrosion of the biodegradable anode and significantly enhanced the performance of the battery. The batteries demonstrated a capacity and power delivery capability of up to 0.7 mAh and 26 μW, respectively, which are sufficient for powering MEMS-based IMD systems.

[1] B. Ratnakumar. Passive films on magnesium anodes in primary batteries , 1988 .

[2] Joseph P Vacanti,et al. Biocompatibility analysis of poly(glycerol sebacate) as a nerve guide material. , 2005, Biomaterials.

[3] Jing Liu,et al. Power sources and electrical recharging strategies for implantable medical devices , 2008 .

[4] Diego Mantovani,et al. Biodegradable Metals for Cardiovascular Stent Application: Interests and New Opportunities , 2011, International journal of molecular sciences.

[5] R. Walter,et al. Influence of surface roughness on the corrosion behaviour of magnesium alloy , 2011 .

[6] R. Willumeit,et al. Ion release from magnesium materials in physiological solutions under different oxygen tensions , 2011, Journal of Materials Science: Materials in Medicine.

[7] Huanyu Cheng,et al. A Physically Transient Form of Silicon Electronics , 2012, Science.

[8] S. Ramaswamy,et al. Corrosion and Biocompatibility Assessment of Magnesium Alloys , 2012 .

[9] Mark G. Allen,et al. A MICROFABRICATED WIRELESS RF PRESSURE SENSOR MADE COMPLETELY OF BIODEGRADABLE MATERIALS , 2012 .

[10] Methods for the microfabrication of magnesium , 2013, 2013 IEEE 26th International Conference on Micro Electro Mechanical Systems (MEMS).

[11] M. Allen,et al. A Microfabricated Wireless RF Pressure Sensor Made Completely of Biodegradable Materials , 2012, Journal of Microelectromechanical Systems.