Dr. Bakhsahyesh, Amir

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Dr. Bakhsahyesh, Amir

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Personal Details
Name: Amirmahmoud
Surname: Bakhshayesh
Academic Status: Assistant Professor
Research Interests:
1) Optoelectronics
2) Next-generation Solar Cells
3) Perovskite Semiconductors
4) Two-dimensional (2D) Materials
5) Nanostructured materials

Contact Address

School of Metallurgy & Materials Engineering

Iran University of Science and Technology (IUST), Narmak, Tehran, Iran

Tel: (9821)73228878

Fax: +9821-77240480

E-mail: ambakhshayeshiust.ac.ir
Google Scholar: Amirmahmoud Bakhshayesh
Orcid: 0000-0002-5572-6808

Educational Records

Degree	Major	Year of Graduation	University	Location
B.Sc.
M.Sc.
Ph.D.

Teaching Experiences:
1) Advanced Materials
2) Materials Design and Selection
3) Research Methodology

Publications (ISI)

1) A.M. Bakhshayesh, H. Abdizadeh, M. Mirhosseini, N. Taghavinia, Layered Ruddlesden-Popper Perovskites with Various Thicknesses for Stable Solid-State ‎Solar Cells, Physics of the Solid State, 62 (2020) 529–541.

2) M. Mirhosseini, A.M. Bakhshayesh, R. Khosroshahi, N. Taghavinia, H. Abdizadeh, Development of a Triple-Cation Ruddlesden-Popper Perovskite Structure with Various ‎Morphologies for Solar Cell Applications, Journal of Materials Science: Materials in Electronics 31 (2020) 2766–2776.

3) A.M. Bakhshayesh, H. Abdizadeh, M. Mirhosseini, N. Taghavinia, Designing highly stable yet efficient solar cells based on a new triple-cation quasi-2D/3D hybrid perovskites family, Ceramics International 45 (2019) 20788–20795.

4) A.M. Bakhshayesh, M.R. Mohammadi, D.J. Fray, Controlling electron transport rate and recombination process of TiO₂ dye-sensitized solar cells by design of double-layer films with different arrangement modes, Electrochimica Acta 78 (2012) 384–391.

5) A.M. Bakhshayesh, M.R. Mohammadi, H. Dadar, D.J. Fray, Improved efficiency of dye-sensitized solar cells aided by corn-like TiO₂ nanowires as the light scattering layer, Electrochimica Acta 90 (2013) 302–308.

6) A.M. Bakhshayesh, M.R. Mohammadi, Development of nanostructured porous TiO₂ thick film with uniform spherical particles by a new polymeric gel process for dye-sensitized solar cell applications, Electrochimica Acta 89 (2013) 90–97.

7) A.M. Bakhshayesh, M.R. Mohammadi, N. Masihi, M.H. Akhlaghi, Improved electron transportation of dye-sensitized solar cells using uniform mixed CNTs-TiO₂ photoanode prepared by a new polymeric gel process, Journal of Nanoparticle Research, 2013, 15:1961.

8) A.M. Bakhshayesh, N. Bakhshayesh, Enhanced performance of dye-sensitized solar cells aided by Sr,Cr co-doped TiO₂ xerogel films made of uniform spheres, Journal of Colloid and Interface Science 460 (2015) 18–28.

9) A.M. Bakhshayesh, Light scattering management of dye-sensitized solar cells based on double-layered photoanodes aided by uniform TiO₂ aggregates, Materials Research Bulletin 73 (2016) 268–275.

10) A.M.Bakhshayesh, N.Bakhshayesh, Enhanced short circuit current density of dye-sensitized solar cells aided by Sr,Vco-doped TiO₂ particles, Materials Science in Semiconductor Processing 41 (2016) 92–101.

11) A.M. Bakhshayesh, Improved short-circuit current density of dye-sensitized solar cells aided by Sr,Nb co-doped TiO₂ spherical particles derived from sol–gel route, J Sol-Gel Sci Technol 77 (2016) 228–239.
12) A.M. Bakhshayesh, S.S. Azadfar, N. Bakhshayesh, Multi-layered architecture of electrodes containing uniform TiO₂ aggregates layers for improving the light scattering efficiency of dye-sensitized solar cells, J Mater Sci: Mater Electron 26 (2015) 9808–9816.

13) A.M. Bakhshayesh, Sandwich-like design of TiO₂ electrodes containing multiple light scattering layers for dye-sensitized solar cells applications, Thin Solid Films 594 (2015) 88–95.

14) A.M. Bakhshayesh, Sr, Zn co-doped TiO₂ xerogel film made of uniform spheres for high-performance dye-sensitized solar cells, Solid State Electrochem 20 (2016) 389–400.

15) A.M. Bakhshayesh, S.S. Azadfar, Orderly decorated nanostructural photoelectrodes with uniform spherical TiO₂ particles for dye-sensitized solar cells, Front. Chem. Sci. Eng. 9 (2015) 532–540.

16) A.M. Bakhshayesh, N.Farajisafiloo, Uniform nanostructured photoelectrodes made of a zinc-stabilized TiO₂ gel for dye-sensitizedsola cell applications, Materials Science in Semiconductor Processing 32 (2015) 90–99.

17) A.M. Bakhshayesh, N.Farajisafiloo, Anatase-stabilised Al_xTi_1−xO₂ photoanodes containing uniform spherical particles for efficient dye-sensitized solar cells, Applied Surface Science 331 (2015) 58–65.

18) A.M. Bakhshayesh, N.Farajisafiloo, Facile preparation of anatase-stabilised gels using niobium chloride for efficient dye-sensitized solar cells, J Mater Sci: Mater Electron 26 (2015) 3409–3416.

19) A.M. Bakhshayesh, N.Farajisafiloo, Efficient dye-sensitised solar cell based on uniform In-doped TiO₂ spherical particles, Appl. Phys. A 120 (2015) 199–206.

20) A.M. Bakhshayesh, M.R. Mohammadi, The improvement of electron transportrate of TiO₂ dye-sensitized solar cells using mixed nanostructures with different phase compositions, Ceramics International, 39 (2013) 7343–7353.

21) A.M. Bakhshayesh, N. Bakhshayesh, Facile one-pot synthesis of uniform niobium-doped titanium dioxide microparticles for nanostructured dye-sensitized solar cells, Journal of Electroceramics, 36 (2016) 112–121.

22) A.H. Ghanbari Niaki, A.M. Bakhshayesh, M.R. Mohammadi, Double-layer dye-sensitized solar cells based on Zn-doped TiO₂ transparent and light scattering layers: Improving electron injection and light scattering effect, Solar Energy, 2014 (103) 210–222.

23) N.Massihi, M.R. Mohammadi, A.M. Bakhshayesh, M. Abdi-Jalebi, Controlling electron injection and electron transportation of dye-sensitized solar cells aided by incorporating CNTs into Cr³⁺-doped TiO₂ photoanode, Electrochimica Acta 111 (2013) 921–929.

24) M.R. Mohammadi, A.M. Bakhshayesh, F. Sadri, M. Masroor, Improved efficiency of dye-sensitized solar cells by design of a proper double layer photoanode electrodes composed of Cr-doped TiO₂ transparent and light scattering layers, Journal of Sol-Gel Science and Technology, 67 (2013) 77–87.

25) M. Souri, M.A. Bagherzadeh, M.A. Mofazzal Jahromi, H. Mohammad‐Beigi, Amir Abdoli, Hamed Mir, Abazar Roustazadeh, Majid Pirestani, Parham Sahandi Zangabad, Jafar Kiani, Amirmahmoud Bakhshayesh, Mehdi Jahani, Mohammad Taghi Joghataei, Mahdi Karimi, Poly‐L‐lysine/hyaluronan nanocarriers as a novel nanosystem for gene delivery, Journal of Microscopy, 287(1) (2022) 32–44.

1) A.M. Bakhshayesh et al., triple-cation 2D perovskite solar cells, International conference on nanostructured solar cells (NSSC98), 2019, Sharif University of Technology, Iran.

2) A.M. Bakhshayesh et al., 2D perovskites for solar cell applications, International conference on nanostructured solar cells (NSSC95), 2016, Sharif University of Technology, Iran.

3) A.M. Bakhshayesh, H. Dadar, M.R. Mohammadi, Synthesis and optical characterization of anatase-TiO₂ nanowires by hydrothermal method, International Conference on Nanostructures (ICNS4), 2012, Kish Island, Iran.

4) M. Abdi Jalebi, A.M. Bakhshayesh, M.R. Mohammadi, Mesoporous TiO₂ electrodes with different thickness for dye-sensitized solar cell application, International Conference on Nanostructures (ICNS4), 2012, Kish Island, Iran.

5) M.H. Akhlaghi, A.M. Bakhshayesh, M.R. Mohammadi, Synthesis and optical characterization of CdS nanoparticles by solvothermal method for solar cell applications, International Conference on Nanostructures (ICNS4), 2012, Kish Island, Iran.

6) First international workshop on nanostructured solar cells and solar systems, 2011, the Institute of nanoscience and nanotechnology, University of Kashan, Iran.

7) International conference on nanostructured solar cells (NSSC91), 2011, Sharif University of Technology, Iran.

Patents and Inventions

1) A.M. Bakhshayesh, N. Taghavinia, H. Abdizadeh, Triple-cation two-dimensional lead halide perovskites, USPTO Provisional Application Number: 63013556.

2) Amirmahmoud Bakhshayesh et al., Dye-sensitized solar cells based on Corn-like TiO₂ nanowires, Iran Intellectual Property Office, number 76853, Sep 2012.

3) Amirmahmoud Bakhshayesh et al., Dye-sensitized solar cells using a TiO₂ polymeric gel process, Iran Intellectual Property Office, number 76804, Sep 2012.

Editorial Board

Associate editorial board member of Current Chinese Science

Manuscript Reviewer

1) Elechtrochemica Acta

2) Journal of Colloid and Interface

3) Materials Science in Semiconductor Processing

4) Journal of Solid State Electrochemistry

5) New Journal of ‎Chemistry

6) International Journal of Polymer Science

7) Energy Reports

Awards

The 2013 Thesis Prize from the Mechanical Industrial Festival at the Sharif University of Technology.

Written Works

Book's Name	Author's Name	Date
Nanoclay-based Products Across Global Markets: Applications and Properties	H. Nourizadeh, A.M. Bakhshayesh	2020, DOI: 10.22034/SAR.2020.01.
Global Nanotechnology Products in Textile (Volume 1), Glasstree Academic Publishing	A.M. Bakhshayesh, S. Sharafoddinzadeh	2018 (Available online at Amazon).
StatNano Annual Report	A.M. Bakhshayesh et al, 2017	DOI: ‎‎10.22631/sar.2018.03
Status of Nano-Science, Technology, and Innovation	A.M. Bakhshayesh et al.,	2016, DOI: 10.22631/snsti.2017.01.‎

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