Shahruz Nasirian
Shahruz Nasirian

Shahruz Nasirian

Email:  ShahruzNasirian[at]ustmb.ac.ir
Degree: Associate Professor
Dr. Shahruz Nasirian obtained his Ph.D. degree in the field of Nanophysics in the solid state physics department, University of Mazandaran. He is an associate professor at the department of electrical and medical engineering, Mazandaran University of Science and Technology. The current fields of interest are conducting polymers, semiconductor, conducting polymers/metal oxide semiconductor composites and their applications. Now he continues his research activities in the field of gas sensors, solar cells, photodetectors, health bio-markers and optical instruments at Nanoelectronic laboratory, Mazandaran University of Science and Technolog.
 

 

Google Scholar: https://scholar.google.com/citations?hl=en&user=2FCyGy0AAAAJ

ORCID: https://orcid.org/0000-0002-4325-3820
 
Qualifications
B.S. degree from Isfahan University of Technology on Solid state physics in 1998.
M.S. degree from University of Mazandaran on Nanophysics in 2010.
Ph.D. degree from University of Mazandaran on Nanophysics in 2015.
 
Research Interests
  My research interests are NanoPhysics, Nanoelectronic and Nanotechnology.
The synthesis and characterization of inorganic semiconductor metal oxides; nanofibers; conducting polymers; 
functional thin films and conducting polymer/semiconductor metal oxide composites in order to gas sensor technology and Molecular Electronic.
Biomarkers and Nano-Electronics in Medicine.
 
Honors and Awards
 Top student in Postgraduate courses (M.S. coursesat University of Mazandaran. 
 Top student in Nanophysics Ph.D course at University of Mazandaran.
 
Previous and Present Positions
 Lecturer and Head of Physics Lab since 2000.
I am currently working as Research manager.
 
Professional Membership
 
Teaching Experiences
 
Publications
Journal Papers:

[1] H.M. Moghaddam, S. Nasirian, Ultrasonic wave effects on the diameter of TiO2 nanoparticles, South African Journal of Science 107 (3-4), 2011, 01-05.

[2] H.M. Moghaddam, S. Nasirian, Decreasing of the activation energy of TiO2 nanoparticles by applying ultrasound waves using the sol-gel method, Iranian Journal of Physics Research 11 (4), 2011, 1-7.

[3] H.M. Moghaddam, S. Nasirian, Dependence of activation energy and lattice strain on TiO2 nanoparticles, Nanoscience Methods 1 (1), 2012, 201-212.

[4] H.M. Moghaddam, S. Nasirian, The Dominance of Morphology over Size in the Decrease of the Activation Energy of Biphase TiO2 Nanocrystallites, Molecular Crystals and Liquid Crystals 562 (1), 2012, 219-228.

[5] S. Nasirian, H.M. Moghaddam, Type of lattice strain alteration, the reducing agent of activation energy of titania loading on the silica matrix than that of pure titania, Composite Interfaces 20 (2), 2013, 119-130.

[6] S. Nasirian, H.M. Moghaddam, Hydrogen gas sensing based on polyaniline/anatase titania nanocomposite, International journal of hydrogen energy 39 (1), 2014, 630-642.

[7] S. Nasirian, H.M. Moghaddam, Effect of different titania phases on the hydrogen gas sensing features of polyaniline/TiO2 nanocomposite, Polymer 55 (7), 2014, 1866-1874.

[8] H.M. Moghaddam, S. Nasirian, Hydrogen gas sensing feature of polyaniline/titania (rutile) nanocomposite at environmental conditions, Applied surface science 317, 2014, 117-124.

[9] S. Nasirian, H.M. Moghaddam, Polyaniline assisted by TiO2:SnO2 nanoparticles as a hydrogen gas sensor at environmental conditions, Applied Surface Science 328, 2015, 395-404.

[10] S. Nasirian, S.Y. Razavi, Hydrogen gas sensing performance of polyaniline/titania/nickel oxide nanocomposite at room temperature, Materials Science and Engineering: B 224, 2017, 40-47.

[11] M. Moradian, S. Nasirian, Structural and room temperature gas sensing properties of polyaniline/titania nanocomposite, Organic Electronics 62, 2018, 290-297.

[12] E.A. Mojtabavi, S. Nasirian, Flexible self-powered ultraviolet-visible photodetector based on polyaniline‑titanium dioxide heterostructures: The study of the rearrangement of layers, Applied Surface Science 492, 2019, 189-198.

[13] E.A. Mojtabavi, S. Nasirian, A self-powered UV photodetector based on polyaniline/titania nanocomposite with long-term stability, Optical Materials 94, 2019, 28-34.

[14] A.J. Bandari, S. Nasirian, Carbon monoxide gas sensing features of zinc oxide nanoneedles: practical selectivity and long-term stability, Journal of Materials Science: Materials in Electronics 30 (11), 2019, 10073-10081.

[15] M. Asal, S. Nasirian, Acetone gas sensing features of zinc oxide/tin dioxide nanocomposite for diagnosis of diabetes, Materials Research Express 6 (9), 2019, 095093.

[16] M.M. Shokravi, S. Nasirian, Improved carbon dioxide gas sensing features of zinc oxide nanorods assisted by an organic filler for dynamic situations, Applied Physics A 125 (10), 2019, 730.

[17] S. Nasirian, Enhanced carbon dioxide sensing performance of polyaniline/tin dioxide nanocomposite by ultraviolet light illumination, Applied Surface Science 502, 2020, 144302.

[18] S.T. Hezarjaribi, S. Nasirian, An Enhanced Fast Ethanol Sensor Based on Zinc Oxide/Nickel Oxide Nanocomposite in Dynamic Situations, Journal of Inorganic and Organometallic Polymers and Materials, 30, 2020, 1-13.

[19] M. Asal, S. Nasirian, Enhanced low-level acetone detection by zinc/tin bi-metallic oxides nanocomposite with long-term stability, Journal of Materials Science: Materials in Electronics 31 (2), 2020, 920-929.

[20] L. Ghorbani, S. Nasirian, Zinc oxide nanorods assisted by polyaniline network as a flexible self-powered ultraviolet photodetector: A comprehensive study, Applied Surface Science, 2020, 146786.

[21] ﺳﻌﯿﺪ ﮐﺎرد،  ﺷﻪروز ﻧﺼﯿﺮﯾﺎن، ﺣﺴﮕﺮ ﺣﺎﻟﺖ ﺟﺎﻣﺪ ﻧﺎﻧﻮ ﻣﯿﻠﻪﻫﺎی اﮐﺴﯿﺪ روی ﺑﺮای ﺗﺸﺨﯿﺺ ﮔﺎز ﻣﺘﺎن در دﻣﺎی اﺗﺎق، ﻣﺠﻠﮥ ﭘﮋوﻫﺶ ﻓﯿﺰﯾﮏ اﯾﺮان، ﺟﻠﺪ 20، ﺷﻤﺎرة 2، ﺗﺎﺑﺴﺘﺎن 1399، 1-10.

[22] K. Rezaei, S. Nasirian, A low-level acetone gas sensor based on n-type ZnO/p-type CuO composite nanostructure for the diagnosis of diabetes in dynamic situations, J. Mater. Sci: Mater. Electron. 32 (2021) 5199-5214.

[23] F. Hadizadeh , S. Nasirian, Utilizing zinc oxide nanorods/polyaniline heterojunction as a flexible self-powered ultraviolet photodetector, Opt. Mater. 123 (2022) 111902.

[24] S. Nasirian, F. Hadizadeh , A cheap self-powered UV-photodetector based on layer-by-layer

arrangement of polyaniline and ZnO, Polymer 245 (2022) 124699.

[25] Z. Azmoodeh, H. Milani Moghaddam, S. Nasirian, Hydrogen gas sensing feature of polypyrrole nanofibers assisted by spinel ZnMn2O4 microspheres in dynamic conditions, Int. J. Hydrogen. Energ. 47 (2022) 29971-29984.

[26] F. Hadizadeh, S. Nasirian, A flexible self-powered ultra-violet photodetector based on sandwiched zinc oxide nanorods between polyaniline layers, J. Mater. Sci: Mater. Electron. 34 (2023) 1-19.

[27] Z. Azmoodeh, S. Nasirian, H. Milani Moghaddam, Improving H2 gas sensing with ZnMn2O4/Polypyrrole Nanocomposite, Int. J. Hydrogen. Energ. 85 (2024) 854-864.

[28] S. Nasirian, F. S. Rostami, F. Z. Moradtabar Azizi, Multilayered heterojunction-based zinc oxide nanoneedles/polyaniline/titania nanoparticles as a self-powered ultraviolet light photodetector, Sensor. Actuat. A-Physical 379 (2024) 115931.

 

Conference Papers:

1- حسین میلانی مقدم، شهروز نصیریان، سنتز نانو ذرات دی اکسید تیتانیوم به روش سل- ژل و بهبود اندازه ی ذرات، اولین همایش سراسری نقش علوم پایه در فناوری نانو، آذر ماه 1388 - دانشگاه جامع امام حسین (ع) تهران.

 2- H.M. Moghaddam, S. Nasirian, The effect of the calcination temperature on the TiO2 nanoparticles size made with sol-gel process, 13th Iranian Seminar on Physical and Chemistry, 2010, Shiraz University of Technology (Top Paper in Seminar).

3- شهروز نصیریان، حسین میلانی مقدم، تاثیر زمان ژلاتینه شدن بر قطر و میزان کریستاله شدن نانوذرات فاز آناتاز TiO2 در روش سل- ژل، نهمین همایش دانشجویی فناوری نانو، اسفند ماه 1389 - دانشگاه تربیت مدرس.

 4- حسین میلانی مقدم، شهروز نصیریان، بررسی اندازه‌ی قطر نانوذرات TiO2 (فاز آناتاز) در حضور و عدم حضور امواج آلتراسونیک، کنفرانس فیزیک ایران در سال 1389 - دانشگاه بوعلی سینای همدان.

 5- شهروز نصیریان، حسین میلانی مقدم، اثر تغییرات کرنش شبکه بر انرژی فعال سازی استحاله‌ی فاز نانوذرات TiO2، کنفرانس فیزیک ایران در سال 1390- دانشگاه ارومیه.

6- H.M. Moghaddam, S. Nasirian, Role of Lattice Strain on Optical 6- Band Gap Energy of Nanocrystallits Titania, International Congress on Nanoscience and Nanotechnology (10 Stember 2012), Kashan university.

7- S. Nasirian, H. M. Moghaddam, Linear Relationship between 7- Activation Energy and Mixing Time of Sol-Gel Route on Fabrication of Titania Nanocrystalline, International Congress on Nanoscience and Nanotechnology  )September 2012), Kashan university.

 8- حسین میلانی مقدم، شهروز نصیریان، اثر آلاییدگی روی خصوصیت حسگری گاز هیدروژن نانوفیبرهای پلی انیلین- امرآلدین ، کنفرانس فیزیک ایران در سال 1393 - دانشگاه زاهدان.

9- شهروز نصیریان، حسین میلانی مقدم، حسگر گاز هیدروژن برپایه‌ی نانوکامپوزیت پلی انیلین (امرآلدین)/SnO2 ، کنفرانس فیزیک ایران در سال 1393 - دانشگاه زاهدان.

10- S. Nasirian, S.Y. Razavi, Room temperature hydrogen gas sensor based on polyaniline/titania/nichek oxide nanocomposite, 25th Annual International Conference on Mechanical Engineering-ISME 2017.

11- S. Nasirian, A.J. Bandari, CO gas sensing of Zinc oxide nanospikes at room temperature with different humidity, 7th International Conference on Nanostructures (ICNS7).

12- شقایق تیموری هزار جریبی، شه­روز نصیریان، سنتز و مطالعه خصوصیت حسگری گاز اتانول بر پایه­ی نانوکامپوزیت اکسید روی- اکسید نیکل در دمای اتاق، اولین کنفرانس ملی میکرو/ نانو فناوری، اردیبهشت 97، دانشگاه بین المللی امام خمینی (ره).

13- شه­روز نصیریان، سعید کاردر، مطالعه­ی اثر رطوبت روی حسگر گاز متانِ نانوساختار اکسید روی، کنفرانس فیزیک ایران در سال 1397، شهریور 97، دانشگاه بین المللی امام خمینی (ره).

14- شه­روز نصیریان، محمد مهدی شکروی، سنتز و بررسی خصوصیات حسگری گاز دی­اکسید کربن نانومیله­های اکسید روی، کنفرانس فیزیک ایران در سال 1397، شهریور 97، دانشگاه بین المللی امام خمینی (ره).

15- شه­روز نصیریان، الهه السادات مجتبوی، مطالعه‌ی ساختار و خصوصیات نوری-الکتریکی پلی انیلین بعنوان آشکارساز منعطف نور مرئی، کنفرانس فیزیک ایران در سال 1398، شهریور 98، دانشگاه تبریز.

16- شه­روز نصیریان، محمد مهدی شکروی، آماده سازی و مطالعه‌ی خصوصیات حسگری گاز کلروفرمِ نانومیله‌های اکسید روی، کنفرانس فیزیک ایران در سال 1398، شهریور 98، دانشگاه تبریز.

Books:
 
Supervised Dissertations and Theses
 
Research Projects
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