[K BIZ] Glucose Memory Device / YTN KOREAN

YTN korean

29 Jun 201801:31

Summary

TLDRA South Korean research team has created a groundbreaking glucose-based resistive random access memory (RRAM) device that can be implanted in the body. This innovative device, which dissolves in water within minutes and completely decomposes in 36 hours, utilizes glucose and magnesium—both safe for human use. The new technology promises to revolutionize data storage in healthcare, paving the way for future bioelectronic devices. By combining these materials, the researchers aim to enhance the integration of technology within the human body, highlighting significant advancements in medical applications.

Takeaways

💡 A South Korean research team has developed an innovative USB-like device that can be implanted in the human body.
🧬 The device uses resistive random access memory (RRAM) technology based on glucose.
💧 The implanted device dissolves when water is sprayed on it, disappearing within 10 minutes.
⏳ Complete decomposition of the device occurs within 36 hours after implantation.
🌱 The materials used—glucose and magnesium—are non-toxic and safe for the human body.
🔬 The team created a film of glucose sandwiched between layers of magnesium for data storage.
🏥 This glucose-based RRAM device is expected to be widely used in the healthcare industry.
🔗 The research may also provide insights into future bioelectronic devices.
📊 The development signifies progress in biocompatible technology for medical applications.
🚀 The findings could lead to advancements in how medical data is stored and accessed.

Q & A

What type of memory device has been developed by the South Korean research team?
-The research team has developed a resistive random access memory (RRAM) device.
What is unique about the RRAM device's material composition?
-The device is made from glucose and magnesium, both of which are non-toxic to the human body.
How quickly can the new glucose-based RRAM device dissolve when implanted?
-The device can dissolve in less than 10 minutes after water is sprayed on it.
What is the total decomposition time for the new device?
-The complete decomposition of the device occurs after 36 hours.
What potential applications are anticipated for this RRAM device?
-The device is expected to be primarily used in the healthcare industry.
What is the significance of the materials used in the RRAM device?
-The use of glucose and magnesium makes the device safe for implantation in the human body.
What kind of insights does this research aim to provide?
-This research is expected to offer meaningful insights for the development of future bioelectronic devices.
How does the design of the device contribute to its functionality?
-The device is constructed with a film made of glucose sandwiched between layers of magnesium, enhancing its performance.
Who are the notable individuals mentioned in the research team?
-The transcript mentions Hasan, Yanira, Europe, Russia, Jonny Orton Jr., and others associated with the project.
What is the main advantage of the device's ability to dissolve?
-The ability to dissolve makes the device suitable for temporary applications within the body, reducing long-term risks.