استفاده از پیزوالکتریک در فرآیند لایه نشانی

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Content : d- (COM) 0 9-000 | مس مس 6 Gputtertercy 

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Electron gun -} Electron beam First condenser lens Spray aperture —} ‘second condenser lens -} Xray detector Detection coils Final lens aperture Objective lens Backscatter | ‘electron detector Sample -} ‘secondary ‘electron detector Ficod- Pocket UHV Source Rotary. Pocket UMW Source uypodog urs 

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deposited film om, Substrate holder اناه magnetron \ ۱ [= A © rotation device The various section of the designed device have been introduced. The stepper motors apply to slope and rotate the substrate are controlled by an AVR schedule microcontroller. The controlling commands are transferred to the stepper motor sthrough two electrical feedthroughs. To retain the substrate temperature during the deposition process at Compartment temperature , new liquid (for example cold water) circulating system containing a copper pile acting as a warmth _ exchanger dependent to the copper substrate warmer was used. The warm exchanger is connected to this warmer apply a roller bearing 

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شبیه سازی ایجاد جریان الکتریکی با پیزو الکتریک با 2020۱5 as نرم افزار آباکوس یک نرم افزار فیس تال سس ات کر ‎aise)‏ های مختلف دارای کاربرد می پاش در ان پروز که توس وم سل طرلعی و قیی سار شده بتک نود و اراد الگتریکی در اعمال فشار به صفحه ی یک در نرم افزار باکوس شبیه سازی 

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آمروزه استفاده از مدل پیروالکتریک به دلیل قابلبت تبدبل انرزی محیطی همچون ارتعاشات مکانیکی به انرژی الکتریکی» کاربرد گشترده‌ای پدا کرد است. در یک سازه دارای لایه پیزوالکتریک, علاوه بر خصوصیات پیژوالکتزیی, انتخاب خصوصيات بخش غيريزوالكتريكى سارة برداشت کنو انرز نيز از اهميت بالابى برخوردار است؛ بنايراين در بزوفض حاضر. تولية انرتٍی الکتریکی از ارتعاشات اجباری تیر حي ‎en‏ سر بررسی قرارگرفته است. 

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3D electron microscopy techniques for phase analysis and structure characterization of Wednesday, 2nd December 2 Xiaodong Zou is a full professor and deputy head of the Department of Materials and Environmental Chemistry, Stockholm University. She received her B.Sc. in Physics at Peking University in 1984, and Ph.D. in structural chemistry at Stockholm University in 1995, She joined the faculty at Stockholm University in 1996 and became professor 2005. Her research interests have been developments of electron crystallographic methods and design of novel porous materials, Her group has developed several image and diffraction-based methods and software for accurate atomic structure determination of unknown crystals, and solved many complex structures including zeolites, metal-organic frameworks, organic compounds and proteins. She has received several prestigious awards given by the Royal Swedish Academy of Sciences. She is an elected member of the Royal Gwedish Academy of Sciences) (KVA) anembenion 

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3D electron microscopy techniques for phase analysis and structure characterization of Wednesday, 2nd December 2: Knowing the 3D arrangement of atoms in a material is essential for understanding the properties and predicting the applications of the material. Transmission electron microscopy (TEM) has been widely used for studying nanostructured materials. A major drawback is that each TEM image or electron diffraction pattern contains only 2D information (projection) of the material. My group has been working on deveoping methods for collection and processing of 3D electron diffraction (3DED) data and 3D reconstruction from high resolution electron microscopic images. In this talk, I will present different imaging and diffraction methods for 3D structure determination. I will show the methods can be used for structure elucidation of various porous materials including zeolites and metal- organic frameworks that are important for catalysts, drug delivery and energy applications. T will demonstrate our latest developmienimicd 

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