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Welcome to NANO 52
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This course will help you to:
Course Objective... To introduce nanostructures and nanomaterials studied and developed for applications in the emerging fields of nanoscience and nanotechnology. You will learn about: • nanomaterial structure • how structure dictates properties • how processing can change structure This course will help you to: • use nanomaterials properly • realize new design opportunities with nanomaterials and nanostructures
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Meet your professor… Dr. Jill Johnsen
Physics, Materials Engineering, & Nanotechnology Math and Science Teacher Education
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Office Hours! johnsenjill@foothill.edu Wednesdays 3pm to 4pm
in the PSME center room 4213
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Topics Atomic Structure Interatomic Bonding
Structure of a (7,1) (single-wall) carbon nanotube looking along the tube axis. The golden spheres represent carbon atoms and the bonds between them are marked by connecting lines.
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Classification of Materials and Nanomaterials
Periodic Table
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Technology Properties of Materials Current Events
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Grain size and Structure
Nanobio- materials Characterization Fabrication
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Five Course Nano Program
NANO 50 – Introduction to Nanotechnology NANO 51 – Applications of Nanotechnology NANO 52 – Nanostructures NANO 53 – Nanocharacterization NANO 54 – Nanofabrication Internship (NASA Ames, Stanford)
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Course Website: -Syllabus Weekly homework assignments Weekly readings
-PowerPoint slides from lecture
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Course Outline Introduction and overview of nanomaterials engineering
Week Date Topics 1 April 6th Introduction and overview of nanomaterials engineering 2 April 13th Structure and properties of the atom 3 April 20th Structure and properties of materials 4 April 27th Electromagnetic properties of materials 5 May 4th Nanostructures Nanosystems 6 May 11th Classes and properties of materials 7 May 18th Nanocarbon 8 May 25th Silicon and semiconductor materials 9 June 1st Thin film coatings and surface modification 10 June 8th Nanoparticles 11 June 15th Nanomagnetics 12 June 22nd Novel nanomaterials
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Course Outline I am in the process of scheduling:
Guest Presenters from NASA, Stanford CPN, UC Santa Cruz, Nanolab Technologies, SJSU. Tours of Stanford CPN, SNF, SJSU Research Labs, Nanolab Technologies. AFM demostrations and training at Foothill. SEM, XPS, and TEM demonstrations and training at NASA Advanced Studies Lab.
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Stanford CPN and SNF NASA ASL Nanolab Technologies
Nanolab Technologies
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Course Outline Introduction and overview of nanomaterials engineering
Week Date Topics 1 April 6th Introduction and overview of nanomaterials engineering 2 April 13th Structure and properties of the atom 3 April 20th Structure and properties of materials 4 April 27th Electromagnetic properties of materials 5 May 4th Nanostructures Nanosystems 6 May 11th Classes and properties of materials 7 May 18th Nanocarbon 8 May 25th Silicon and semiconductor materials 9 June 1st Thin film coatings and surface modification 10 June 8th Nanoparticles 11 June 15th Nanomagnetics 12 June 22nd Novel nanomaterials Take-home midterm due Final writing assignment due
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Grading Discussion Questions 25 % Weekly Homework Assignments
Take Home Midterm Final Writing Assignment
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Weekly Discussion Questions
We will devote minutes of class time each week for small group discussions
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Weekly Homework Assignments
Due every Wednesday! You will be asked to answer one or two questions or solve problems related to the topics discussed during class that week. Please bring your responses to lecture the following week or submit them via to by the following lecture.
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Take-Home Midterm exam
Due Wednesday May 11th The midterm will be based on in-class lectures, reading assignments, and problem sets. The exam will be assigned during week 5 (May 4th) and due in class during week 6 (May 11th). The midterm will involve both calculation and design problems that may involve web research.
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Final Writing Assignment
Due June 22nd You will write a final research paper on a nanostructure or technology of your choice. The paper should reference current literature on your selected topic and should target an audience of your fellow students. 5 to 10 pages double-spaced 10 to 12 point font including tables and images. More details to follow…
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Ten Key Nanostructures
Thin film and amorphous silicon (PV) – solar energy Carbon nanotubes (CNT) / carbon composite materials (aerospace & transportation) Surface coatings and SAMs (Self Assembled Monolayers) Sensors and bionanotechnology Nitinol™ (biomedical stents) / electropolished alloys Thin film and plasma coatings (polyester film) / high performance glazing Particles (coated particles) biomedicine / powder metallurgy (lithium batteries) Dendrimers (nanochemistry) – biomedical drug delivery Polymers and composites / nanoparticle filler - lightweight automotive and aircraft materials Silicon materials Micro Electro Mechanical Systems - (MEMS), Lab-on-a-Chip (LOC), DNA microarrays Ceramics and electro ceramics / fuel cells - (stationary / mobile power)
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PNPA Relationship As you look at different nanotechnologies this quarter think about the following: What are the applications? (A) What properties are needed? (P) What are the (nano)structures? (N) How do you fabricate / process it? (P)
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PNPA Use PNPA to ‘connect’ topics in the four-course series – from A to PNPA Applications (A) Nanostructure (N) Properties (P) Process (P)
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