سنتز هیدروترمال و شناسایی لایه های ZnO با نانوساختارهای مختلف

Hydrothermal synthesis and characterization of

ZnO films with different nanostructures

سنتز هیدروترمال و شناسایی لایه های ZnO با نانوساختارهای مختلف

ABSTRACT

ZnO nanomaterials were grown on the F-doped SnO2 glass substrate by a two-step hydrothermal method [14]. Firstly, ZnO buffer layer was modified on FTO substrates by spin-coating. Secondly, hydrothermal method was employed to synthesize ZnO materials. ZnO buffer layer was obtained by the following procedure. Zinc acetate was dissolved in the mixed solution of ethanolamine and 2- methoxyethanol with a concentration of 0.75 M. The mixture was then agitated at 60 ◦C for 30 min to yield a homogeneous and stable colloid solution. The procedure was the same as Ref. [27]. After coated with the above colloid solution by spin-coating, FTO substrates were annealed at 300 ◦C to get ZnO buffer layer.

 

سنتز هیدروترمال نانو میله ی ZnO به کمک مایکروویو

Microwave-assisted hydrothermal synthesis and

characterization of ZnO nanorods

سنتز هیدروترمال به کمک مایکروویو و ویژگی های نانو میله ی ZnO

ABSTRACT

For the purpose of this study, the nanorods of zinc oxide were synthesized by rapid microwave-assisted hydrothermal route. The microstructure and surface morphology of the sensitized nanorods were characterized by X-ray diffraction (XRD), field emission scanning electron microscope (FE-SEM) and transimision electron microscope (TEM) . XRD results indicate that synthesized ZnO nanorods have wurtzite phase. The calculated value of the particle size using Debye Scherrer formula and Williamson Hall plot was found to be 20-28 nm and 35.3 nm, respectively. Low uniformity distribution of rod-like morphology (60-80 nm in diameter and average length about 250 nm) are seen in TEM micrographs. The optical parameters of the prepared ZnO nanorods have been calculated using Kubeleka-Munk. approach for the UV-vis diffuse reflectance spectrum.

 

سنتز نانو میله های ZnO با اندازه ی بزرگ با روش تبخیر حرارتی ساده

Synthesis of large size ZnO microrods by a simple way of

thermal evaporation

سنتز نانو میله های ZnO با اندازه ی بزرگ با روش تبخیر حرارتی ساده

ABSTRACT

Large sizeneedle-like ZnO microrods with diameters around 100 μm and length of up to2.5 mm have been achieved by asimple method of thermal evaporation of ZnO powder discs in the open air. Metallic catalysts and vacuum condition are not necessary. Both the micro-sized and nano-sized ZnO rods were grown vertically at different sites of the substrate. Theas-synthe sized micro rod sand nanorods are pure ZnO without any other element, and both of them consist of single crystalline cores with hexagonal cross sections.

 

سنتز دما پایین فیلم های نازک ZnO دوپ شده با سدیم و آلومینیوم

Low temperature synthesis wide optical band gap Al and

Al, Na) co-doped ZnO thin films)

سنتز دما پایین فیلم های نازک ZnO داپ همزمان شده با Al و Na

با باندگپ نوری گسترده

ABSTRACT

With a wide bandgap of 3.37 eV and a large exciton binding energy of 60meV at room temperature, zinc oxide (ZnO), like GaN, is considered as an important material for blue and ultra-violet optical devices. Its research interest arisen again since 1957, the New Jersey Zinc Company published a book entitled “Zinc Oxide Rediscovered” to promote the material’s “frontier” properties (such as semiconductor, luminescent, catalytic, ferrite, photoconductive, and photochemical properties) and illustrative applications. Recently, research focused mainly on fabrication of high quality single crystals and epitaxial layers, in order to fully realize ZnObased electronic and optoelectronic devices.

 

روش جدید سنتز لایه های نازک ZnO: ریزساختار، خواص الکتریکی و اپتیکی

New process for synthesis of ZnO thin films: Microstructural, optical

and electrical characterization

روش جدید سنتز لایه های نازک ZnO: ریزساختار، خواص الکتریکی و اپتیکی

ABSTRACT

Zinc oxide (ZnO) is an interesting wide-band-gap semiconductor material with a direct band gap of 3.36 eV [1] at room temperature and exciton binding energy of 60 meV. It has crystalline structure of the wurtzite type and the unit cell with the constants a = 3.24 ˚A and c = 5.19A˚ . Thin films of ZnO are utilized for a wide variety of electronic and opto-electronic applications, such as surface acoustic wave devices [4], transparent conducting electrodes [2], heat mirrors [3]. Nanoscale porous structures of ZnO with a high surface area find their application in chemical sensors [5] and dye-sensitised solar cells [6]. Various techniques have been used to deposit undoped and doped ZnO films on different substrates, including spray pyrolysis [7], organometallic chemical vapor deposition [8], pulsed laser deposition [9], sputtering [10], and sol–gel process [11].

 

سنتز نانو ورقه های ZnO از طریق روش الکترورسوبی

Synthesis of ZnO nanosheets via electrodeposition method and

their optical properties, growth mechanism

سنتز نانو ورقه های ZnO از طریق روش الکترورسوبی ، خواص نوری و مکانیزم رشد

ABSTRACT

ZnO nanosheets were prepared by electrochemical deposition method at 80 C on seeded Indium Tin Oxide conducting glass substrates. The seed layer was coated on ITO by spin coating and annealed at 350 C for 30 min prior to electrochemical deposition growth. X-ray diffraction patterns (XRD) and field emission scanning electron microscope (FESEM) images confirmed that the ZnO nanosheets consist of polycrystalline structures. Room temperature photoluminescence spectra (PL) of the ZnO nanosheets exhibited band-edge ultraviolet (UV) and visible emission (blue) indicating the ZnO nanosheets had excellent optical properties. The UV–Vis absorption spectrum of ZnO nanosheets was shown a strong absorption at 300 nm. The ZnO nanosheets structure demonstrated higher photocatalytic activity during degradation of aqueous methylene blue under visible-light irradiation. Moreover, the growth mechanism of the ZnO nanosheets had been discussed.

 

مشخصه یابی فولاد یاتاقان Characteristics of 100Cr6 bearing steel

Characteristics of 100Cr6 bearing steel after thixoforming process performed 

with prototype device

مشخصه یابی فولاد یاتاقان 100Cr6 بعد از فرایند thixoforming انجام شده با ابزار مدل اولیه

ABSTRACT

A device based on a high pressure die-casting(HPDC) machine was constructed, with a capacity to produce thixo-casts from steel. After inductive heating to the required semi-solid temperature range, the samples were transported in a protective argon atmosphere to a cylinder of modified HPDC and injected into a pre-heated die. Bearing steel 100Cr6 (after forging) was used as the feedstock material. The metallographic analysis of the steel showed a homogenous structure within a whole volume characterized by a grain size between 2 μm and 8 μm. Differential scanning calorimetry (DSC) analysis allowed to estimate the process temperature for thixoforming at 1 390 °C which was attributed to about 45% of a liquid phase.

 

متالورژی منگنز -Manganese metallurgy

Manganese metallurgy review . Part I: Leaching of ores/secondary materials and

recovery of electrolytic/chemical manganese dioxide

مروری بر متالورژی منگنز. قسمت I: فروشویی سنگ‌های‌معدنی/مواد ثانویه

و بازیافت الکترولیتی/شیمیایی دی‌اکسید منگنز

ABSTRACT

The world rapidly growing demand for manganese hasmade it increasingly important to develop processes for economical recovery of manganese from low grade manganese ores and other secondary sources. Part I of this review outlines metallurgical processes for manganese production from various resources, particularly focusing on recent developments in direct hydrometallurgical leaching and recovery processes to identify potential sources of manganese and products which can be economically produced. 

High grade manganese ores (N40%) are typically processed into suitable metallic alloy forms by pyrometallurgical processes. Low grade manganese ores (b40%) are conventionally processed by pyrometallurgical reductive roasting or melting followed by hydrometallurgical processing for production of chemical manganese dioxide (CMD), electrolytic manganese (EM) or electrolytic manganese dioxide (EMD).

اثر نرخ سرد شدن روی ساختار میکروسکوپی آلیاژ هایپر یوتکتیک Al-Ni

The influence of cooling rate on the microstructure of an Al–Ni hypereutectic alloy

اثر نرخ سرد شدن روی ساختار میکروسکوپی آلیاژ هایپر یوتکتیک Al-Ni

ABSTRACT

An Al–4 at.% Ni alloy was prepared by a melt spinning technique and characterized by X-ray diffraction, scanning electron microscopy, energy dispersive X-ray spectroscopy and high resolution transmission electron microscopy. The resulting ribbon microstructure consists of intermetallic Al9Ni2 globular-like structures embedded within an aluminum matrix. Characteristic globules are nanometric (∼100 nm) and are mainly located at the grain boundaries. The resulting effect on the mechanical properties is the enhancement of the alloy hardness from 58 to 371 HV.

 

اثر ایتربیم روی خواص مکانیکی و ریزساختار آلیاژ آلومینیوم-منیزیم

Effects of Yb on the mechanical properties and microstructures of an Al–Mg alloy

اثر ایتربیم روی خواص مکانیکی و ریزساختار آلیاژ آلومینیوم-منیزیم

ABSTRACT

This paper reported a first study of the effects of Yb on the microstructures and mechanical properties of an extruded Al–Mg alloy. It has been shown that the addition of 0.3 wt.% Yb decreases the mechanical properties of the alloy since Mg- and Yb-containing constituents decrease the concentration of Mg solute atoms in Al matrix, and thus the solution strengthening effect. However, the addition of 1 wt.% Yb substantially improves the mechanical behavior of the alloy because the concentration of Yb solute atoms in Al matrix is high enough to generate solution strengthening effect. The improvement in the mechanical properties is due to the large work-hardening and high dislocation density caused by the interaction between dislocations and Yb and Mg solute atoms. The Yb and Mg atoms inhibit the dynamic recovery and recrystallization of the alloy, thus provide a uniformly distributed dislocation structure with high density.