Electrochemistry And Biosensors Are Indispensable Tools For Modern Science. Electrochemistry Is The Branch Of Science Which Studies The Behavior Of Electrons In Chemical Reactions; For Example, The Flow Of Electricity From Metals. Biosensors Are Biocompatible Electronic Circuits That Allow For The Detection And Monitoring Of Metabolic Processes Within Living Systems. Electrochemists Are Interested In Understanding How Reactions Occur At The Boundaries Of Different Materials, Such As Between Metals And Electrolytes. This Allows Them To Design Batteries And Other Energy Storage Devices. Electrochemistry Is Also Used To Synthesize New Metal Compounds, Such As Those Needed For Medical Treatments. Biosensors Combine Biological Elements With Electrochemical Sensing To Detect Physical And/Or Chemical Signals From The Environment. Today’s Electrochemical Biosensors Are Highly Sensitive And Can Rapidly Detect Small Concentrations Of Molecules Such As Glucose, Lactate, And Hydrogen Peroxide. These Molecules Are Chemical Messengers That Can Tell Us About The Functioning Of The Body Or The Environment. Biosensors Can Be Used For Diagnostic Purposes, To Identify Diseases Or Monitor The Effectiveness Of Drugs And Other Physiologically Active Compounds. Additionally, Electrochemical Biosensors Are Now Being Used In The Food Industry To Detect Potential Contamination. Finally, Electrochemical Biosensors Have Potential applications in the field of agriculture, to study general soil health and ensure optimal crop production. Electrochemistry and biosensors have revolutionized our understanding of virtually all aspects of the natural world. These technologies allow us to probe the hidden recesses of the living and physical universe in ways we couldn’t have imagined a few decades ago.
Title : Personalized and Precision Medicine (PPM) as a unique healthcare model through biodesign-inspired and upgraded business marketing to secure the human healthcare and biosafety
Sergey Suchkov, National Center for Human Photosynthesis, Aguascalientes, Mexico
Title : Eliminating implant failure in humans with nano chemistry: 30,000 cases and counting
Thomas J Webster, Brown University, United States