Publications

We encourage the team members to publish their research achievements in high-quality journals. We make sure to publish authentic, high-quality research and review articles. Below, please find our latest publications.

For a complete list of publications with links, please visit our Google Scholar and ResearchGate pages

Reviving the absorbent chemistry of electrochemically mediated amine regeneration for improved point source carbon capture

A. Hassan, A. Refaie, P. Aleta, M. Afshari, E. Kalantari, Y. Fang, M. Rahimi, Chemical Engineering Journal 484, 149566, 2024

Exploring the potential of transition-metal-based hollow micro- and nanoparticles in supercapacitor electrodes

P. Tajalli, M. Omidiyan, M. Rahimi, T. R. Lee, Materials Today Sustainability 26, 100733, 2024

oCVD PEDOT-Cl Thin Film Fabricated by SbCl5 Oxidant as the Hole Transport Layer to Enhance the Perovskite Solar Cell Device Stability

K. Chowdhury, S.K. Behura, M. Rahimi, M. Heydari G., ACS Applied Energy Materials 7, 1068–1079, 2024

Direct ocean capture: the emergence of electrochemical processes for oceanic carbon removal

P. Aleta, A. Refaie, M. Afshari, A. Hassan, M. Rahimi, Energy & Environmental Science 16, 4944–4967, 2023

Electrochemical carbon capture processes for mitigation of CO2 emissions

M. Rahimi, A. Khurram, T. A. Hatton, B. Gallant, Chemical Society Reviews 51, 8676–8695, 2022

Electrochemical Carbon Dioxide Capture and Release with a Redox-Active Amine

H. Seo, M. Rahimi, T. A. Hatton, Journal of the American Chemical Society 144, 2164–2170, 2022

Toward Smart Carbon Capture with Machine Learning

M. Rahimi, S. M. Moosavi, B. Smit, T. A. Hatton, Cell Reports Physical Science 2, 100396, 2021

An electrochemically mediated amine regeneration process with a mixed absorbent for post-combustion CO2 capture

M. Rahimi, K. M. Diederichsen, N. Ozbek, M. Wang, W. Choi, T. A. Hatton, Environmental Science & Technology 54, 8999–9007, 2020

Improved CO2 capture performance of electrochemically mediated amine regeneration processes with ionic surfactant additives

M. Rahimi, F. Zucchelli, M. Puccini, T. A. Hatton, ACS Applied Energy Materials 3, 10823–10830, 2020

Carbon dioxide capture using an electrochemically driven proton concentration process

M. Rahimi, G. Catalini, S. Hariharan, M. Wang, M. Puccini, T. A. Hatton, Cell Reports Physical Science 1, 100033, 2020

Bench-scale demonstration of CO2 capture with an electrochemically driven proton concentration process

M. Rahimi, G. Catalini, M. Puccini, T. A. Hatton, RSC Advances 10, 16832–16843, 2020

Public Awareness: What Climate Change Scientists Should Consider

M. Rahimi, Sustainability 12, 8369, 2020

Flue Gas CO2 Capture via Electrochemically Mediated Amine Regeneration: System Design and Performance

M. Wang, M. Rahimi, A. Kumar, S. Hariharan, W. Choi, T. A. Hatton, Applied Energy 255, 113879, 2019

Emerging electrochemical and membrane-based systems to convert low-grade heat to electricity

M. Rahimi, A. P. Straub, F. Zhang, X. Zhu, M. Elimelech, C. A. Gorski, B. E. Logan, Energy & Environmental Science 11, 276–285, 2018

A thermally regenerative ammonia battery with carbon-silver electrodes for converting low-grade waste heat to electricity

M. Rahimi, T. Kim, C. A. Gorski, B. E. Logan, Journal of Power Sources 373, 95–102, 2018

Electrical power production from low-grade waste heat using a thermally regenerative ethylenediamine battery

M. Rahimi, A. D’Angelo, C. A. Gorski, O. Scialdone, B. E. Logan, Journal of Power Sources 351, 45–50, 2017

Improved electrical power production of thermally regenerative batteries using a poly(phenylene oxide) based anion exchange membrane

M. Rahimi, L. Zhu, K. L. Kowalski, X. Zhu, C. A. Gorski, M. A. Hickner, B. E. Logan, Journal of Power Sources 342, 956–963, 2017

Removal of copper from water using a thermally regenerative electrodeposition battery

M. Rahimi, Z. Schoener, X. Zhu, F. Zhang, C. A. Gorski, B. E. Logan, Journal of Hazardous Materials 322, 551–556, 2017

Individual and interaction effects of operating parameters on the photocatalytic degradation under visible light illumination: Response surface methodological approach

M. Feilizadeh, M. Rahimi, S. M. E. Zakeri, N. Mahinpey, M. Vossoughi, M. Qanbarzadeh, The Canadian Journal of Chemical Engineering 95, 1228–1235, 2017

Integrating reverse-electrodialysis stacks with flow batteries to achieve improved energy recovery from salinity gradients and energy storage

X. Zhu, T. Kim, M. Rahimi, C. A. Gorski, B. E. Logan, ChemSusChem 10, 797–803, 2017

Harvesting energy from salinity differences using battery electrodes in a concentration flow cell

T. Kim, M. Rahimi, B. E. Logan, C. A. Gorski, Environmental Science & Technology 50, 9791–9797, 2016

A thermally-regenerative ammonia-based flow battery for electrical energy recovery from waste heat

X. Zhu, M. Rahimi, C. Gorski, B. Logan, ChemSusChem 9, 873–879, 2016

Evaluating battery-like reactions to harvest energy from salinity differences using ammonium bicarbonate salt solutions

T. Kim, M. Rahimi, B. Logan, C. Gorski, ChemSusChem 9, 981-988, 2016

Enhancement of efficient Ag-S/TiO2 nanophotocatalyst for the photocatalytic degradation under visible light

M. Feilizadeh, M. Vossoughi, S. M. E. Zakeri, M. Rahimi, Industrial & Engineering Chemistry Research 53, 9578–9586, 2014