Ehsan Delfani

@aut.ac.ir

Department of Chemical Engineering
Amirkabir University of Technology



              

https://researchid.co/ehsanpoly

RESEARCH, TEACHING, or OTHER INTERESTS

Chemical Engineering, Electrochemistry, Catalysis, Inorganic Chemistry

4

Scopus Publications

11

Scholar Citations

2

Scholar h-index

Scopus Publications

  • A 3D binder-free rGO/NiMnCo nanosheet for highly efficient hybrid supercapacitors and ion-selective capacitive deionization
    Ehsan Delfani, Sajjad Habibzadeh, Morvarid Pourdayan, Leila Naji, and Mohammad Reza Ganjali
    Royal Society of Chemistry (RSC)
    In this work, we investigated a one-step electrophoretic process to fabricate a rGO/NiMnCo–OH nanosheet material.

  • Improving the performance of a SnS<inf>2</inf> cathode with interspace layer engineering using a Na<sup>+</sup> insertion/extraction method for aqueous zinc ion batteries
    Ali Molaei Aghdam, Nima Mikaeili Chahartagh, Shahriar Namvar, Mahshid Ershadi, Farshad Boorboor Ajdari, and Ehsan Delfani
    Royal Society of Chemistry (RSC)
    Na ion insertion/extraction in a layered structure of SnS2 leads to considerably high interspace layers SnS2 (SnS2-HIL) from 0.86 to 1.10 nm. It enables higher Zn2+ storage capacity in SnS2-HIL cathodes.

  • High-Efficient Capacitive Deionization Using Amine-Functionalized ZIF-67@ 2D MXene: Toward Ultrahigh Desalination Performance
    Ali Molaei Aghdam, Nima Mikaeili Chahartagh, and Ehsan Delfani
    Wiley
    AbstractCapacitive deionization (CDI) is proposed as a thermodynamically effective desalination method for treating non‐potable water with a low‐salt concentrator to address the growing need for clean drinking water. MXenes, 2D transition metal carbides derived from Mn+1AXn (n = 1, 2, 3, or 4) bulk phases, are an intriguing class of crystalline materials with unique physicochemical properties. However, a significant challenge for their practical use is the degradation and phase transition experienced by MXene flakes when exposed to aqueous conditions. Several strategies for improving MXene stability are proposed, including combining it with porous materials such as carbon and metal–organic frameworks (MOFs). In addition to ZIFs, antioxidants with amine functional groups are used to stabilize MXene. Additionally, amine‐functionalized MXenes exhibit improved resistance to oxidation caused by water, enabling them to maintain their dispersity in aqueous solutions at room temperature. The produced A‐ZIF@MXene electrode represents high desalination performance with the highest salt adsorption capacity up to 80.3 mg g−1 in 1000 mg L−1 The NaCl solution reserve more than 99% of its initial capacity in 50 cycles to the synergism of its surface amine groups, high hydrophilicity, and distinctive hierarchical porous structure.

  • Novel mesoporous Co<inf>3</inf>O<inf>4</inf>-Sb<inf>2</inf>O<inf>3</inf>-SnO<inf>2</inf>active material in high-performance capacitive deionization
    Ehsan Delfani, Alireza Khodabakhshi, Sajjad Habibzadeh, Leila Naji, and Mohammad Reza Ganjali
    Royal Society of Chemistry (RSC)
    Capacitive deionization (CDI), as an emerging eco-friendly electrochemical brackish water deionization technology, has widely benefited from carbon/metal oxide composite electrodes.

RECENT SCHOLAR PUBLICATIONS

  • A 3D binder-free rGO/NiMnCo nanosheet for highly efficient hybrid supercapacitors and ion-selective capacitive deionization
    E Delfani, S Habibzadeh, M Pourdayan, L Naji, MR Ganjali
    Journal of Materials Chemistry A 2024

  • Correction: Improving the performance of a SnS 2 cathode with interspace layer engineering using a Na+ insertion/extraction method for aqueous zinc ion batteries
    AM Aghdam, NM Chahartagh, S Namvar, M Ershadi, FB Ajdari, E Delfani
    Journal of Materials Chemistry A 12 (6), 3751-3751 2024

  • Improving the performance of a SnS 2 cathode with interspace layer engineering using a Na+ insertion/extraction method for aqueous zinc ion batteries
    AM Aghdam, NM Chahartagh, S Namvar, M Ershadi, FB Ajdari, E Delfani
    Journal of Materials Chemistry A 12 (2), 1047-1057 2024

  • High‐Efficient Capacitive Deionization Using Amine‐Functionalized ZIF‐67@ 2D MXene: Toward Ultrahigh Desalination Performance
    A Molaei Aghdam, N Mikaeili Chahartagh, E Delfani
    Advanced Materials Technologies 8 (18), 2300628 2023

  • Novel mesoporous Co₃O₄–Sb₂O₃–SnO₂ active material in high-performance capacitive deionization
    E Delfani, A Khodabakhshi, S Habibzadeh, L Naji, MR Ganjali
     2022

  • Novel mesoporous Co 3 O 4–Sb 2 O 3–SnO 2 active material in high-performance capacitive deionization
    E Delfani, A Khodabakhshi, S Habibzadeh, L Naji, MR Ganjali
    RSC advances 12 (2), 907-920 2022

MOST CITED SCHOLAR PUBLICATIONS

  • Novel mesoporous Co 3 O 4–Sb 2 O 3–SnO 2 active material in high-performance capacitive deionization
    E Delfani, A Khodabakhshi, S Habibzadeh, L Naji, MR Ganjali
    RSC advances 12 (2), 907-920 2022
    Citations: 7

  • High‐Efficient Capacitive Deionization Using Amine‐Functionalized ZIF‐67@ 2D MXene: Toward Ultrahigh Desalination Performance
    A Molaei Aghdam, N Mikaeili Chahartagh, E Delfani
    Advanced Materials Technologies 8 (18), 2300628 2023
    Citations: 2

  • A 3D binder-free rGO/NiMnCo nanosheet for highly efficient hybrid supercapacitors and ion-selective capacitive deionization
    E Delfani, S Habibzadeh, M Pourdayan, L Naji, MR Ganjali
    Journal of Materials Chemistry A 2024
    Citations: 1

  • Improving the performance of a SnS 2 cathode with interspace layer engineering using a Na+ insertion/extraction method for aqueous zinc ion batteries
    AM Aghdam, NM Chahartagh, S Namvar, M Ershadi, FB Ajdari, E Delfani
    Journal of Materials Chemistry A 12 (2), 1047-1057 2024
    Citations: 1