NANOELEKTRONIKA KURSI MAZMUNINI FANGA OID KOMPETENSIYA TALABLARI ASOSIDA ISHLAB CHIQISH
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In the article, the issue of developing the content of the nanoelectronics course, defining the main structure of the course based on the requirements of competencies related to the subject in students is analyzed. The possibilities of using innovative educational technologies, simulation, virtual laboratories, imitation models and interactive platforms and modern pedagogical approaches in effective teaching of the nanoelectronics course are substantiated.
Also, in the article, recommendations for improving the content of the nanoelectronics course based on the competency approach have been developed.
1. Normurodov M.T., Jo‘rayev A.X. Fizika fani rivojida nanotexnologiyalar o‘rni. “Ta'lim fan va innovatsiya” jurnali – 2019 3-son.
2. Rogers, B., Adams, J., & Pennathur, S. (2014). Nanotechnology: Understanding Small Systems (2nd ed.). CRC Press.
3. Beane, J.A. (1997). Curriculum Integration: Designing the Core of Democratic Education. Teachers College Press.
4. Хомский Д. Нанотехнологии: принципы и применение. - Москва: Техносфера, 2016.
5. Qodirov A., To‘xtayev B. Nanotexnologiya asoslari. - Toshkent: Oliy ta’lim nashriyoti, 2020.
6. Jo‘rayev R., Sodiqov Q. Zamonaviy ta’limda fanlararo integratsiya metodologiyasi. - Toshkent, 2019.
7. Ishmuhamedov R. Ta’limda innovatsion pedagogik texnologiyalar. - Toshkent: Fan va texnologiya, 2017.
Foton kristall texnologiyalari. Fotonli nanostrukturalar hosil qilish metodlari. Ta’qiqlangan zonalar o‘zgarishini nazorat qilish usuli bilan fotonli kristallarni sintez qilish. Nanofotonika. Fotonli tranzistorlar. Spintronika asboblari, Lazerli nanostrukturalar.
foton kristallarning fizik asoslarini tushuntira olish;
taqiqlangan zona boshqarilishini izohlash;
fotonli tranzistorlar ishlash mexanizmini tahlil qila olish;
spintronika qurilmalarining ishlash prinsipini asoslay olish.
Nanoelektronika sohasida qo‘llana-digan yarimo‘tkazgich materiallar. Yarimo‘tkazgich materiallar. Yarimo‘tkazgichli electron strukturalar, geteroo‘tishlar, geterostrukturalar va o‘ta yuqori kristall panjaralar.
geteroo‘tish va geterostrukturalarni tushuntira olish;
yarimo‘tkazgichli elektron strukturalarni tahlil qila olish;
kristall panjara moslashuvini baholay olish;
Uglerod asosidagi nanomateriallar. Olmos asosidagi yupqa plyonkalar, nanotrubkalar, nanosimlar, fullerenlar.
olmos asosidagi plyonkalar xossalarini tahlil qila olish;
uglerodli nanosimlarning elektr xossalarini baholay olish;
Magnitli materiallar va polimer nanomateriallar. Magnitli yarimo‘t-kazgichlar, polimer materiallar. Organik o‘tkazgichlar va yarim-o‘tkazgichlar.
magnitli yarimo‘tkazgichlarni tahlil qila olish;
organik o‘tkazgich va yarimo‘tkazgichlarning xossalarini tushuntira olish;
Nanoelektronikada qo‘llaniladigan asboblar va ularning elementlari. Yarimo‘tkazgichlarda nanotranzistorli strukturalar. Geterotranzistorlar.
nanotranzistorlarning ishlash prinsipini tushuntira olish;
geterotranzistorlarni tahlil qila olish;
yangi materiallar asosidagi tranzistorlarni solishtira olish;
8. M.Jo‘rayev “Fizika o‘qitish metodikasi” Toshkent-2015. 283b.
9. Karlibayeva Guljaxan Ermekbayevna “Fizika o‘qitish metodikasi fanining samaradorligini oshirish yo‘llari” Toshkent -2014, 80 b.
10. Chizmeshya A.V.G., Drucker J., Sharma R., Carpenter R.W.(2006) Real time nanoctructure imaging for teaching nanoscience, and nanotechnology. Boston, MA: Material Research Society (0931-KK03-07)
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