Biomedicine Nanosensors Biomedicine A powerful tool for identifying biological molecules (PhD in Nano-Microelectronics)
Researcher and author: Dr. ( Afshin Rashid)
Note: With the help of Biomedicine nanosensors, biological radiation and biosystems can be examined when necessary. In the biological field, there is a need for highly sensitive sensors in the form of laboratories on the chip that can detect the slightest signs of cancer and cell damage.
Biomedicine Nanosensors Biomedicine is the name of a group of sensors. These sensors are designed to react with only one specific substance. The result of this reaction is messages that a microprocessor can analyze. Biomedicine nanosensors have attracted the attention of many research centers in recent years. Because biomedicine nanosensors are a powerful tool for identifying biological molecules, they are now used in various medical sciences, chemical industries, food industries, environmental monitoring, pharmaceuticals, health products and more. Nano bio sensors The human olfactory and sensory senses, which detect different odors and tastes, or the body's immune system, which detects millions of different types of molecules. Identifies examples of natural biosensors. Biomedicine is the most widely used nanosensors in medical diagnostics and laboratory sciences . Currently, glucose biosensors are one of the most successful biosensors on the market that are used to measure blood glucose concentrations in diabetic patients. Insufficient insulin is produced in the pancreas of diabetic patients. In such cases it is used for adjustment. Insulin is essential for continuous blood glucose monitoring. The sensors help patients with diabetes measure their blood glucose levels throughout the day and inject insulin when needed.
One of the potential advantages of nano-sensors over conventional sensors is their high sensitivity. The internal sensitivity of a sensor is defined as the ratio of the output signal of the sensor to the change in the properties of the sensor, the amount of analytes connected to the sensor. This parameter can be considered as the sensor's ability to convert an input signal to an output signal. A high-sensitivity sensor is capable of fast instantaneous changes. Sensitivity can also be defined as a sensitivity test that explains how a diagnostic test is able to identify a specific sample with or without analyte. Sensitivity in sensors affects some properties such as repeatability and diagnostic accuracy.
Conclusion :
With the help of Biomedicine nanosensors, biological radiation and biosystems can be monitored when necessary. In the biological field, there is a need for highly sensitive sensors in the form of laboratories on the chip that can detect the slightest signs of cancer and cell damage.
Researcher and author: Dr. ( Afshin Rashid)
PhD in Nano-Microelectronics