1. |
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Introduction to carbon nanotubes |
This lecture introduces the fundamentals of carbon modifications and hydrocarbons. |
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2. |
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Introduction to graphene |
This lecture identifies the concept of graphite and examines its electronic properties. |
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3. |
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Other low-dimensional systems |
This lecture examines the principles of carbon modification through excitations. |
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4. |
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Electrical transport in low dimensions |
This lecture identifies the electrical transport through carbon nanotubes. |
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5. |
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Field effect transistors |
This lecture discusses the electron diffraction from individual carbon nanotubes and graphene chiplets. |
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6. |
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Electrical measurement techniques |
This lecture examines the principles and theories of electrical measurement and identifiy the features and application of acutators. |
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7. |
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Nanocomposites |
This lecture identifies the principles of nanocomposites and examines various methods of their application. |
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8. |
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Actuators |
This content discusses topics for the exam |
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9. |
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Carbon-based capacitors, supercapacitors |
This lecture defines the concept of reciprocal lattice and examines the cases of its utilization. |
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10. |
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Transparent conducting films |
This lecture refers to the concept of reciprocal lattice in order to identfy the principles of crystal lattice. |
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11. |
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Batteries and fuel cells |
This lecture identifies the electrical conductivity in fluid models. |
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12. |
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Field emission |
This content discusses topics for the exam |
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13. |
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Peapods Nanoelectromechanical systems |
This content discusses topics for the exam |
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14. |
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Final Exam |
This content discusses topics for the exam |
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