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Prof. Hossam Haick

Learn about novel sensing tools that make use of nanotechnology to screen, detect and monitor various events in personal or professional life. Together, we will lay the groundwork for infinite innovative applications, starting from diagnosis and treatments of diseases, continuing with quality control of goods and environmental aspects, and ending with monitoring security issues.

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Read more

Learn about novel sensing tools that make use of nanotechnology to screen, detect and monitor various events in personal or professional life. Together, we will lay the groundwork for infinite innovative applications, starting from diagnosis and treatments of diseases, continuing with quality control of goods and environmental aspects, and ending with monitoring security issues.

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Nanotechnology and nanosensors are broad, interdisciplinary areas that encompass (bio)chemistry, physics, biology, materials science, electrical engineering and more. The present course will provide a survey on some of the fundamental principles behind nanotechnology and nanomaterials and their vital role in novel sensing properties and applications. The course will discuss interesting interdisciplinary scientific and engineering knowledge at the nanoscale to understand fundamental physical differences at the nanosensors. By the end of the two parts of the course, students will understand the fabrication, characterization, and manipulation of nanomaterials, nanosensors, and how they can be exploited for new applications. Also, students will apply their knowledge of nanotechnology and nanosensors to a topic of personal interest in this course.

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COURSE OBJECTIVES

The course main objective is to enhance critical, creative, and innovative thinking. The course encourages multicultural group work, constructing international 'thinking tanks' for the creation of new ideas. Throughout the course, you will be asked to reflect upon your learning, think "out of the box", and suggest creative ideas.

The two parts of the course are set to encourage the understanding of:

1. The importance of nanoscale materials for sensing applications.

2. Approaches used for characterizing sensors based nanomaterials.

3. Approaches used for tailoring nanomaterials for a specific sensing application.

4. Metallic and semiconductor nanoparticles.

5. Organic and inorganic nanotubes and nanowires.

6. Optical, mechanical and chemical sensors based on nanomaterials.

7. Hybrid nanomaterial-based sensors.

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We recommend that you read the following supplementary reading materials:

-Jiří Janata, Principles of Chemical Sensors, Springer, 2d Edition (1989).

-Roger George Jackson, Novel Sensors and Sensing, CRC Press (2004).

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Teaching Team

About Professor Haick Hossam

Professor Hossam Haick is an expert in the field of nanotechnology, nanosensors, and non-invasive disease diagnosis. Prof. Haick is the recipient of the prestigious Marie Curie Excellence Award, ERC Award, and the FP-7 Health Award. He is also the recipient of more than 42 international honors and prizes for his achievements, including a Knight of the Order of Academic Palms (conferred by the French Government) and the “List of the World’s Top 35 Young Scientists”, and the Discovery Award of the Bill & Melinda Gates. Prof. Haick is the founder and the leader of a European consortium of eight universities and companies for the development of advanced generation of nanosensors for disease diagnosis. He also serves as an associate editor of the two journals and serves as an advisory consultant to the Chemical Abstracts Service (CAS) – the world's authority for chemical information - a senior scientific advisory member of several national and international companies and institutes, and as a scientific evaluator in the European Commission.

Email: [email protected]

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Course Staff

Meital Bar-Segev, Teaching Assistant: Received her B.A. (Cum Laude) in Chemistry and B.Sc (Cum Laude) in Materials Engineering from the Technion – Israel Institute of Technology (both in 2010). During her studies, she worked in a student position at Tower Semiconductors Ltd. After graduation she worked at Alfred Mann Institute in the Technion (AMIT) as a process development engineer. Currently, she performs her Ph.D. degree (direct track) in the Russell Berrie Nanotechnology Institute (RBNI) of the Technion under the supervision of Prof. Hossam Haick. The research of Meital focuses is the development of electronic skin based on nanoparticles.

Abeer Watted, Teaching Assistant: Received her B.Sc. and M.Sc. in Transportation and Highways Engineering from the Technion. She is a Ph.D. student at the Faculty of Education in Science and Technology at the Technion, under the supervision of Asst. Prof. Miri Barak. She received a second master degree in Educatu in Science and Technology from the Technion in 2013. Her research focuses on science education and inquiry-based laboratories. Currently, Abeer works as a lecturer at Al-Qasemi Academic College of Education, where she serves also as the head of Civil Engineering Department.

Maya Usher, Teaching Assistant: Received her B.A. and M.A. (Cum Laude) in Communication Studies from Sapir Academic College and Ben Gurion University- Israel (2009; 2013 respectively). Currently, Maya is a PhD. candidate at the Faculty of Education in Science and Technology at the Technion, under the supervision of Asst. Prof. Miri Barak. Her research focuses on examining online collaborative learning in small multicultural groups.

Muhammad Khatib, Teaching Assistant: Received his B.Sc in Biochemical Engineering from the Technion – Israel Institute of Technology (2015). His final research project, conducted with Prof. Avi Schroeder, dealt with harnessing liposome-based drug delivery systems to applications in precise agriculture. Currently, he performs his Ph.D. (special track) in the Department of Chemical Engineering of the Technion under the supervision of Prof. Hossam Haick, and his research focuses on self-healing devices for monitoring infectious diseases.

Miri Barak, Pedagogical Advisor: Assistant Professor at the Faculty of Education in Science and Technology, Technion- Israel Institute of Technology. She is the Head of the Science and Learning Technologies group and the advisor of graduate students. Her academic activities focus on developing, integrating, and evaluating science education curricula at school and higher education levels. Her studies involve the use of information and communication technologies (ICT), with emphasis on emerging web-2.0 and cloud applications, to foster meaningful learning and high-order thinking.

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What's inside

Syllabus

Nanowire-based Sensors
The description goes here
Carbon Nanotube-based Sensors
Sensors based on Nanostructures of Metal Oxide
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Sensors based on Polymeric Nanostructures
Electronic Skin Based on Nanotechnology

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Explores the use of nanotechnology in creating novel sensors that can screen, detect and monitor events, with applications in healthcare, quality control, and security
Covers various types of nanomaterials used in sensors, including metallic and semiconductor nanoparticles, organic and inorganic nanotubes and nanowires, and hybrid nanomaterial-based sensors
Provides both fundamental principles and practical applications of nanotechnology and nanosensors, making it suitable for various learners
Focuses on enhancing critical thinking and problem-solving skills, encouraging students to apply knowledge to real-world scenarios
Encourages multicultural group work, fostering collaboration and diversity in problem-solving
Taught by Professor Hossam Haick, an expert in nanotechnology and nanosensors, with a strong track record of research and industry collaborations

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Reviews summary

Nanotech and nanosensors, part 2: highly praised

Learners say that Nanotechnology and Nanosensors, Part 2 is an excellent course with great content and interesting concepts. The knowledgeable instructor presents well-organized lectures with engaging assignments and helpful peer reviews. While some students find the pace of the course to be a bit fast, overall, most learners highly recommend this informative course.
Lectures are well-organized and informative.
"Very well organized and exposed."
"Help learners grasp the general concept of nano-semiconductors."
Learners appreciate the knowledgeable instructor.
"Very Good Instructor well explained"
"Great course! very useful and complete"
"A very core course on nanotechnology..."
Course is well-received for its superb content.
"Excellent content..."
"Very informative course."
"The content of the course is brilliant..."
Some students find the pace of the course to be a bit fast.
"The only issue I faced was that the professor is very fast in explaining the concepts."
"Gets a bit boring and techincal with data during sensors section."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Nanotechnology and Nanosensors, Part 2 with these activities:
Review Course Materials
Taking the time to organize and review all materials will ensure a more productive and smoother learning experience.
Show steps
  • Organize notes, assignments, quizzes, and exams for easy access
  • Identify any areas where you need additional support
  • Reach out to the instructor or teaching assistant for help if needed
Introduction to Nanotechnology Workshop
Attend a workshop that provides an overview of the field of nanotechnology.
Browse courses on Nanotechnology
Show steps
  • Learn about the different types of nanomaterials
  • Discover the different applications of nanotechnology
  • Meet with experts in the field of nanotechnology
Practice using Chemical Structure Drawing Tool
Practice drawing chemical structures using a chemical structure drawing tool to become more familiar with the different types of chemical bonds and molecular structures.
Browse courses on Nanotechnology
Show steps
  • Use a chemical structure drawing tool to draw the structures of the following molecules: methane, ethane, propane, butane, and pentane
  • Identify the different types of bonds present in each molecule
  • Determine the molecular shapes of each molecule
Five other activities
Expand to see all activities and additional details
Show all eight activities
Review textbook Principles of Chemical Sensors
Review a book that deals with some of the fundamental principles and applications of nanosensors.
View Dr. CHEMFET on Amazon
Show steps
  • Read the first three chapters of "Principles of Chemical Sensors"
  • Summarize the main concepts introduced in these chapters
  • Identify the key differences between chemical sensors and other types of sensors
Peer Review: Discuss Nanotechnology Research Paper
Participate in a peer review session to provide feedback on a scientific research paper related to nanotechnology.
Browse courses on Peer Review
Show steps
  • Read the research paper and identify its strengths and weaknesses
  • Meet with your peers to discuss the paper and provide feedback
  • Revise your own research paper based on the feedback you received
Biomedical Nanotechnology
Explore the field of biomedical nanotechnology and learn about the different applications of nanotechnology in medicine and healthcare.
Browse courses on Nanotechnology
Show steps
  • Watch the following TED talk: "The future of medicine is tiny" by Samuel Sia
  • Read the following article: "Nanotechnology in Medicine" by the National Cancer Institute
  • Research a specific application of nanotechnology in medicine, such as drug delivery or tissue engineering
Presentation: Applications of Nanotechnology in Environmental Monitoring
Create a presentation that explores the various applications of nanotechnology in environmental monitoring.
Browse courses on Nanotechnology
Show steps
  • Research the different types of nanomaterials that are used in environmental monitoring
  • Discuss the advantages and disadvantages of using nanomaterials for environmental monitoring
  • Identify the challenges that need to be overcome in order to make nanotechnology-based environmental monitoring systems more effective
  • Create a presentation that summarizes your findings
Research Paper: Nanotechnology and Drug Delivery
Conduct research on the topic of nanotechnology and drug delivery and write a comprehensive report on your findings.
Browse courses on Nanotechnology
Show steps
  • Research the different types of nanomaterials that are used in drug delivery
  • Discuss the advantages and disadvantages of using nanomaterials for drug delivery
  • Identify the challenges that need to be overcome in order to make nanotechnology-based drug delivery systems more effective
  • Write a report that summarizes your findings

Career center

Learners who complete Nanotechnology and Nanosensors, Part 2 will develop knowledge and skills that may be useful to these careers:
Nanofabrication Engineer
Nanofabrication Engineers design, develop, and manufacture products, devices, and systems on the nanoscale. Nanotechnology and nanosensors are the focus of this course, making it a great addition to your skillset.
Biomedical Engineer
Biomedical Engineers apply engineering principles and techniques to the medical field. This course not only explains foundational concepts of nanosensors but also their medical applications, making it a uniquely suited course for your career path.
Research Scientist
Research Scientists conduct scientific research to advance knowledge in their field. This course is designed to provide you with the foundational theory for nano-based sensors, which is a growing area of research in industry and academia.
Product Development Scientist
Product Development Scientists may work on the design and development of products using scientific principles. This course covers topics such as sensors based on carbon nanotubes and polymeric nanostructures. So, if you are interested in working in the health and medicine industry, this course may help provide you with the background needed for medical device development.
Nanoscientist
Nanoscientists discover, develop, characterize, and apply materials and devices on the nanoscale. If your goal is to work as a Nanoscientist, you may wish to take this course to further build on your existing knowledge in nanotechnology and nanosensors.
Patent Examiner
Patent Examiners review patent applications to determine if they meet the criteria for being granted a patent. If you are interested in becoming a Patent Examiner who specializes in nanotechnology, this course would be an excellent addition to your educational background.
Technical Writer
Technical Writers create instruction manuals, technical reports, and other documentation that explains complex technical information. If you wish to become a Technical Writer specializing in nanotechnology, you would benefit from taking this course.
Chemical Engineer
Chemical Engineers apply engineering principles to the design and operation of chemical plants and other facilities. This course covers topics such as sensors based on nanostructures of metal oxide and polymeric nanostructures, which are used to monitor and control chemical processes.
Patent Lawyer
Patent Lawyers help clients obtain patents for inventions and trademarks. If you are interested in working as a Patent Lawyer with a focus on nanotechnology, taking this course would be prudent.
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation of electrical equipment, components, and systems for commercial, industrial, and residential use. The focus on nanomaterials and nanoelectronics in this course may be helpful for your career trajectory.
Analytical Chemist
Analytical Chemists perform research and development and provide technical support, mainly in laboratories. If you plan to enter this occupation, taking this course will help you to augment your understanding of novel tools in your field.
Mechanical Engineer
Mechanical Engineers plan, design, build, and test mechanical devices, including tools, engines, machines, and other equipment. Your work as a Mechanical Engineer may involve the application of sensors, so this course may be useful for your career.
Materials Scientist
Materials Scientists have a bachelor's or master's degree in materials science, materials engineering, or a related field. Given that this course covers topics including, but not limited to, sensors based on nanostructures of metal oxide and polymeric nanostructures, it may be useful for building a foundation on which to pursue a career as a Materials Scientist.
Science Writer
Science Writers communicate complex scientific and technical information to general audiences. This course includes information on the role of nanotechnology in novel applications. Taking this course will help you stay up-to-date on the latest advancements in this field.
Science Teacher
Science Teachers instruct students in various science-related disciplines. This course focuses on nanotechnology and nanosensors, which are increasingly important topics in the field of science.

Reading list

We've selected 20 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Nanotechnology and Nanosensors, Part 2.
First published in 1989, this book still serves as an important guide for students and researchers working with chemical sensors. Provides a solid foundation in the fundamentals of chemical sensing, including sensor design, fabrication, and characterization techniques.
Provides a comprehensive overview of the field of chemical sensors, including the principles, materials, and applications.
Provides a comprehensive overview of the different types of chemical and biosensors, their principles of operation, and their applications in various fields.
Provides a comprehensive overview of the field of nanoscale materials, including the synthesis, characterization, and applications.
Covers the fundamentals of electrochemical sensors and their applications in various fields.
Provides a comprehensive overview of the different types of nanomaterials used in sensors, their fabrication, characterization, and applications in various fields.
Provides a comprehensive overview of the principles and applications of chemical sensors. It valuable resource for students and researchers in the field of chemical sensing.
Describes the design, fabrication, and application of nanosensors for chemical and biological sensing.
Provides a comprehensive overview of the different types of nanosensors, their principles of operation, and their applications in various fields.
Provides a comprehensive overview of the field of nanotechnology, including the basic principles, materials, and applications.
Provides a comprehensive overview of the latest developments in sensor technology. It valuable resource for students and researchers in the field of sensor development.
Provides a comprehensive overview of the field of nanotechnology, including the basic principles, materials, and applications.
Provides a comprehensive overview of the field of nanotechnology, including the basic principles, materials, and applications.
Provides a comprehensive overview of the field of nanotechnology, including the basic principles, materials, and applications.
Provides a comprehensive overview of the use of nanotechnology in sensor development. It valuable resource for students and researchers in the field of nanotechnology.
Provides a comprehensive overview of the use of nanomaterials in sensor development. It valuable resource for students and researchers in the field of nanomaterials.
Provides a comprehensive overview of the field of nanoscience and nanotechnology. It valuable resource for students and researchers who are new to the field.
Provides a comprehensive overview of the medical applications of nanotechnology. It valuable resource for students and researchers who are interested in the medical applications of nanotechnology.
Provides a comprehensive overview of the electronics applications of nanotechnology. It valuable resource for students and researchers who are interested in the electronics applications of nanotechnology.

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