Biological Building Blocks, Charge Transfer in Nature# Electrons And Protons, Charge Transfer Mechanism, Energy Transfer in Nature, Bioelectronics Devices, Designing Materials Capable of Charge Transfer That Are Based On Biological Building Blocks, Current Industrial and Research Applications of Bioderived Electronics, Future Applications of Bioelectronics._ _project of Seminar And Writte Task. Learning Outcomes# The Main Objective of The Course Is to Present The New Field Of Bioderived Electronics That Is Inspired By Natural Charge Transfer Processes. During The Course, The Students Will Be Exposed to The Diverse Possibilities of Integrating Biological Materials Into Bioelectronics Devices. The Students Will Know How to Design A Bioelectronic Device Based On Molecular Junctions, How to Use The The Device, and The Pros and Cons of Each Device. In Addition to The Knowledge and New Tools The Students Will Acquire In Class in The Field of Biological Charge Transfer And Bioelectronics, The Project Hour Will Be Dedicated to Acknowledging New Important Tools to The Students. The First Tool Will Focus On Understanding and Judgmental Reading of Multidisciplinary Research Papers in The Scope of The Course, in Which The Student Will Present A Seminar On This Topic at The End of The Course. The Second Tool Is A Project Guided By The Lecturer For Introducing The Students to The Methodology of Writing a Scientific Grant Proposal That Integrates Several Disciplines (chemistry/physics/materials/electrical Engineering) in The Scope of The Course and Public Outreach of These Topics._

Faculty: Chemistry
|Undergraduate Studies |Graduate Studies
Course with no extra credit (contains)

127444 - Biological Materials and Bioelectronics