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Ahmad Moshaii
Researcher at Tarbiat Modares University
Publications - 57
Citations - 838
Ahmad Moshaii is an academic researcher from Tarbiat Modares University. The author has contributed to research in topics: Thin film & Perovskite (structure). The author has an hindex of 13, co-authored 57 publications receiving 547 citations.
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All-inorganic large-area low-cost and durable flexible perovskite solar cells using copper foil as a substrate.
TL;DR: Here, a low-cost perovskite solar cell using CuI and ZnO as the respective inorganic hole and electron transport layers is introduced providing an environmentally and market friendly perovSkiteSolar cell.
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Two‐Step Physical Deposition of a Compact CuI Hole‐Transport Layer and the Formation of an Interfacial Species in Perovskite Solar Cells
Saba Gharibzadeh,Bahram Abdollahi Nejand,Ahmad Moshaii,Nasim Mohammadian,Amir Hossein Alizadeh,Rahele Mohammadpour,Vahid Ahmadi,Abdolali Alizadeh +7 more
TL;DR: The solvent-free method provides a uniform and well-controlled CuI layer with large grains and good compactness that prevents the direct connection between the contact electrodes that makes it an appropriate method for large scale applications of CuI in perovskite solar cells.
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Optimization of charge transport in a Co–Pi modified hematite thin film produced by scalable electron beam evaporation for photoelectrochemical water oxidation
TL;DR: In this paper, a Co-Pi modified hematite thin film with efficient solar water oxidation properties was proposed for photoelectrochemical (PEC) hydrogen generation by oxidation of water due to its low cost, earth abundance and appropriate bandgap.
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Mechanism of adsorption of single and double stranded DNA on gold and silver nanoparticles: Investigating some important parameters in bio-sensing applications
TL;DR: It is shown that both single and double stranded DNAs can be adsorbed on the metal nanoparticles and the adsorption strength is determined by the interaction between various bases of DNA and the nanoparticles.
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Influence of Perovskite Morphology on Slow and Fast Charge Transport and Hysteresis in the Perovskite Solar Cells.
TL;DR: The measurement of open-circuit voltage decay indicates that for the large grains of 300 nm up to 70% of Voc remains across the cell, even after passing ∼40 s, demonstrating the large accumulation of the ions at the perovskite interfaces with electron and hole transport layers, which conduct slow redistribution of the charges after the light is turned off.