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NİNOVA
DERSLER
YARDIM
HAKKINDA
Neredeyim:
Ninova
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Dersler
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Fen Bilimleri Enstitüsü
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NSE 522E
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Dersin Bilgileri
Fakülteye dön
Ana Sayfa
Dersin Bilgileri
Dersin Haftalık Planı
Değerlendirme Kriterleri
Dersin Bilgileri
Dersin Adı
Türkçe
Nanoelectronics
İngilizce
Nanoelectronics
Dersin Kodu
NSE 522E
Kredi
Ders
(saat/hafta)
Uygulama
(saat/hafta)
Labratuvar
(saat/hafta)
Dönem
-
3
3
20
10
Dersin Dili
İngilizce
Dersin Koordinatörü
Onur Ergen
Onur Ergen
Dersin Amaçları
This course delves into the fascinating realm of nanoelectronics, exploring the miniaturization of electronic components and the unique properties of nanomaterials. The syllabus covers a range of topics essential for understanding this cutting-edge field:
• Semiconductor Fundamentals: Explore semiconductor phenomena, characteristics, energy band theory, and electrical conduction.
• PN Junctions: Understand the properties and characteristics of PN junctions, as well as the behavior of resistance, capacitance, and passive elements.
• Transistor Technology: Study the structures, characteristics, and models of bipolar transistors, JFETs, MESFETs, and MOS transistors.
• Advanced FETs: Discover the advancements in Field-Effect Transistors (FETs) and their applications.
• Memory Elements: Learn about memory elements and their role in nanoelectronics.
• Nano-Based Electronic Devices: Explore emerging technologies like Single Electron Transistors (SETs) and Carbon Nanotube Field-Effect Transistors (CNT FETs).
• Micro-Electromechanical Systems (MEMS) and NEMS: Understand the principles and applications of MEMS and NEMS.
• Organic Nanoelectronics: Study the advancements and applications of organic materials in nanoelectronics.
• Nanobioelectronics: Explore the intersection of nanotechnology and biomedical applications.
• Biomedical and Technological Applications: Learn about the use of nanoelectronics in drug delivery, prosthetics, memory devices, telemetry, and RF MEMS technology.
Dersin Tanımı
Nanoelectronics
Dersin Çıktıları
This course delves into the fascinating realm of nanoelectronics, exploring the miniaturization of electronic components and the unique properties of nanomaterials. The syllabus covers a range of topics essential for understanding this cutting-edge field:
• Semiconductor Fundamentals: Explore semiconductor phenomena, characteristics, energy band theory, and electrical conduction.
• PN Junctions: Understand the properties and characteristics of PN junctions, as well as the behavior of resistance, capacitance, and passive elements.
• Transistor Technology: Study the structures, characteristics, and models of bipolar transistors, JFETs, MESFETs, and MOS transistors.
• Advanced FETs: Discover the advancements in Field-Effect Transistors (FETs) and their applications.
• Memory Elements: Learn about memory elements and their role in nanoelectronics.
• Nano-Based Electronic Devices: Explore emerging technologies like Single Electron Transistors (SETs) and Carbon Nanotube Field-Effect Transistors (CNT FETs).
• Micro-Electromechanical Systems (MEMS) and NEMS: Understand the principles and applications of MEMS and NEMS.
• Organic Nanoelectronics: Study the advancements and applications of organic materials in nanoelectronics.
• Nanobioelectronics: Explore the intersection of nanotechnology and biomedical applications.
• Biomedical and Technological Applications: Learn about the use of nanoelectronics in drug delivery, prosthetics, memory devices, telemetry, and RF MEMS technology.
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