-
حرية الوصول المقاله
1 - Cyeloaddition Reactions Between C30 and Huta- 1,3 -diene An ab initio Study
Seeid Abedini Khorrami Shahram Moradi Hajar Mohammadzadeh BaharCycloaddition reaction between C30 and hula-I, 3-diene was studied within the Snimework of AM I (RHF)level. The reaction involving the double bond between two hexagons and a hexagon and a pentagon, as wellas the cycloaddition products followed by disrotatory ogs s elect أکثرCycloaddition reaction between C30 and hula-I, 3-diene was studied within the Snimework of AM I (RHF)level. The reaction involving the double bond between two hexagons and a hexagon and a pentagon, as wellas the cycloaddition products followed by disrotatory ogs s electrocyclic ring openings were considered.Thermodynamics parameters and stability energy and innsation state are evaluated in three Valence isomers تفاصيل المقالة -
حرية الوصول المقاله
2 - Design of Biosensor for Diagnosis of Bio-molecules Using Surface Enhanced Raman Spectroscopy
Babak Hassanshahi Sayyedjavad SayyedfattahiIn recent years, surface enhanced Raman Spectroscopy (SERS) method have been applied in the area of biotechnology, nanotechnology and diagnostic issues. For that, nanoparticles have been arranged near the flat film structure. By doing so, it is found that the local fiel أکثرIn recent years, surface enhanced Raman Spectroscopy (SERS) method have been applied in the area of biotechnology, nanotechnology and diagnostic issues. For that, nanoparticles have been arranged near the flat film structure. By doing so, it is found that the local field enhancement can be greatly improved. In this paper, using two type of nanoparticles namely Ag, Au, we have obtained a double resonance system structure. The process is carried out by the application of nanoparticles, Ag and Au with Ag as a grating coupler. The space and interspace of 3 nm and 5-20 nm for the two particles Au and Ag are considered, respectively. A double resonance system structure has been proposed and simulated with the LUMERICAL FDTD. Our result show that for nanoparticle-film coupling, the highest enhancement factor of 〖(10〗^13) can be obtained for Ag nanosphere and Ag-grating coupler. Finally the simulation results show that application of multiple couplings associated with Ag grating filed and tooth like binding of Ag grating coupling can be used to significantly improve the near-field enhancement. تفاصيل المقالة -
حرية الوصول المقاله
3 - Improving Mechanical Properties, Especially Increasing Tubes’ Strength by Micro structuring Metals Using Severe Plastic Deformation Method
سید حسن سجادی حسین پوراکبری سیامک صادقی امید میرجابریIncreasing material’s strength is of particular importance. Improving material’s mechanical properties such as strength could reduce the size and weight of the structure. The size and weight of the structure are among the effective parameters in design. Sinc أکثرIncreasing material’s strength is of particular importance. Improving material’s mechanical properties such as strength could reduce the size and weight of the structure. The size and weight of the structure are among the effective parameters in design. Since the past a variety of methods have been developed to increase the strength of metals that are capable of increasing metals’ strength to a certain level. But most of these methods while increasing strength are associated with relatively high material formability properties. This is one of the most important limitations of the methods. Plastic deformation method is among the new methods that in addition to increasing the material’s strength will strengthen other desired mechanical properties of the material by micro structuring the crystal lattice of a metal. The mechanical properties of the products of this process are so better than the original metal properties that they are known as super metals. Various methods have been developed to make the materials in tubes NANO structured. Products produced during these processes despite being thinner are less capable to withstand pressure and have higher corrosion and wear resistance compared to the tube manufactured by the conventional methods. Moreover they have the potential to be used at higher temperatures and have longer lifetime. These advantages have increased the importance of plastic deformation methods for the tubs. In this research while a brief discussion on the effect of severe plastic deformation on the material structure the conventional methods for manufacturing the tube are reviewed. تفاصيل المقالة -
حرية الوصول المقاله
4 - Improving Mechanical Properties, Especially Increasing Tubes’ Strength by Micro structuring Metals Using Severe Plastic Deformation Method
سید حسن سجادی حسین پور اکبری سیامک صادقی امید میرجابریIncreasing material’s strength is of particular importance. Improving material’s mechanical properties such as strength could reduce the size and weight of the structure. The size and weight of the structure are among the effective parameters in design. Sinc أکثرIncreasing material’s strength is of particular importance. Improving material’s mechanical properties such as strength could reduce the size and weight of the structure. The size and weight of the structure are among the effective parameters in design. Since the past a variety of methods have been developed to increase the strength of metals that are capable of increasing metals’ strength to a certain level. But most of these methods while increasing strength are associated with relatively high material formability properties. This is one of the most important limitations of the methods. Plastic deformation method is among the new methods that in addition to increasing the material’s strength will strengthen other desired mechanical properties of the material by micro structuring the crystal lattice of a metal. The mechanical properties of the products of this process are so better than the original metal properties that they are known as super metals. Various methods have been developed to make the materials in tubes NANO structured. Products produced during these processes despite being thinner are less capable to withstand pressure and have higher corrosion and wear resistance compared to the tube manufactured by the conventional methods. Moreover they have the potential to be used at higher temperatures and have longer lifetime. These advantages have increased the importance of plastic deformation methods for the tubs. In this research while a brief discussion on the effect of severe plastic deformation on the material structure the conventional methods for manufacturing the tube are reviewed. تفاصيل المقالة -
حرية الوصول المقاله
5 - اثرpH بر خواص جذبی نانو ذرات اکسید روی-اکسید کادمیوم برای حذف متیل بلو و متیل اورانژ
الهه خلیلی فرد سید علی حسن زاده تبریزی مجتبی نصراصفهانینانو کامپوزیت ZnO-CdO با استفاده از روش میکروامولسیون آب در روغن سنتز شد. نسبت وزنی اکسید روی و کادمیم و دمای کلسیناسیون بر روی مورفولوژی، تشکیل فاز، تبدیلات فازی، اندازه کریستال هاوذرات و همچنین سطح ویژه نانو کامپوزیت ZnO-CdO تحقیق شد. محصولات سنتز شده توسط آنالیزهای X أکثرنانو کامپوزیت ZnO-CdO با استفاده از روش میکروامولسیون آب در روغن سنتز شد. نسبت وزنی اکسید روی و کادمیم و دمای کلسیناسیون بر روی مورفولوژی، تشکیل فاز، تبدیلات فازی، اندازه کریستال هاوذرات و همچنین سطح ویژه نانو کامپوزیت ZnO-CdO تحقیق شد. محصولات سنتز شده توسط آنالیزهای XRD، BET، SEM، TEM و مورد بررسی قرار گرفت. نتایج پراش اشعه ایکس نشان داد که نانو کامپوزیت ZnO-CdO با کریستالهای نانومتری شکل گرفته است، ذرات نانو کامپوزیت روی-کادمیم سنتز شده در دمای˚C400 به دلیل سطح ویژه بالاتر بهترین خواص جذب و تجزیه متیل بلو و متیل اورانژ اسیدی را از خود نشان دادند. تفاصيل المقالة
سند
Sanad is a platform for managing Azad University publications
الروابط
المراكز ذات الصلة
دعامة
الصفحات الرسمية
حقوق هذا الموقع الإلكتروني مملوكة لنظام SANAD Press Management. © 1442-1446