Alireza Eivazi
Universitetsadjunkt|Lecturer
- Professional title: Lecturer
- Academic title: Adjunct lecturer
- Telephone: +46 (0)10-1428370
- Email: alireza.eivazi@miun.se
- Location: Sundsvall
- FSCN Research Centre
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Research centers:
Area of interest
Alireza received his Ph.D. in Chemical Engineering from Mid Sweden University with backgrounds in materials science, hydrometallurgy, and surface and colloidal chemistry. His research interests lie in the development of functional biomaterials in the fields of energy, electronic, optoelectronic, sensors, and filtration systems. The focus is on both fundamental and applied investigations, including studies on understanding the interactions among the different biomacromolecule and inorganic compounds in polar and non-polar systems.
Research
Colloids and Interfaces, Cellulose, Inorganic Particles, Material Characterizations
Other information
Google Scholar: https://scholar.google.se/citations?hl=sv&user=yHAdELUAAAAJ&view_op=list_works&sortby=pubdate
LinkedIn: https://www.linkedin.com/in/alireza-eivazi-20588a61/
Publications
Articles in journals
Articles, reviews/surveys
Conference papers
Doctoral theses, comprehensive summaries
Articles in journals
Zhang, R. , Hummelgård, M. , Örtegren, J. , Andersson, H. , Olsen, M. , Chen, W. , Wang, P. , Dahlström, C. & et al. (2023). Energy Harvesting Using Wastepaper-Based Triboelectric Nanogenerators. Advanced Engineering Materials, vol. 25: 11
Nejström, M. , Andreasson, B. , Sjölund, J. , Eivazihollagh, A. , Svanedal, I. , Edlund, H.
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Norgren, M. (2023). On Structural and Molecular Order in Cellulose Acetate Butyrate Films. Polymers, vol. 15: 9
Haller, H. , Paladino, G. , Dupaul, G. , Gamage, S. , Hadzhaoglu, B. , Norström, S. , Eivazi, A. , Holm, S. & et al. (2023). Polluted lignocellulose-bearing sediments as a resource for marketable goods—a review of potential technologies for biochemical and thermochemical processing and remediation. Clean Technologies and Environmental Policy, vol. 25, pp. 409-425.
Costa, C. , Medronho, B. , Eivazi, A. , Svanedal, I. , Lindman, B. , Edlund, H.
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Norgren, M. (2021). Lignin enhances cellulose dissolution in cold alkali. Carbohydrate Polymers, vol. 274
Eivazi, A. , Medronho, B. , Lindman, B.
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Norgren, M. (2021). On the development of all-cellulose capsules by vesicle-templated layer-by-layer assembly. Polymers, vol. 13: 4
Eivazihollagh, A. , Svanedal, I. , Edlund, H.
&
Norgren, M. (2019). On chelating surfactants : Molecular perspectives and application prospects. Journal of Molecular Liquids, vol. 278, pp. 688-705.
Eivazihollagh, A. , Norgren, M. , Dahlström, C.
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Edlund, H. (2018). Controlled Synthesis of Cu and Cu2O NPs and Incorporation of Octahedral Cu2O NPs in Cellulose II Films. Nanomaterials, vol. 8: 4
Ibrahem, I. , Iqbal, M. N. , Verho, O. , Eivazihollagh, A. , Olsén, P. , Edlund, H. , Tai, C. , Norgren, M. & et al. (2018). Copper Nanoparticles on Controlled Pore Glass and TEMPO for the Aerobic Oxidation of Alcohols. ChemNanoMat, vol. 4: 1, pp. 71-75.
Eivazihollagh, A. , Bäckström, J. , Norgren, M.
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Edlund, H. (2018). Electrochemical recovery of copper complexed by DTPA and C12-DTPA from aqueous solution using a membrane cell. Journal of chemical technology and biotechnology (1986), vol. 93: 5, pp. 1421-1431.
Eivazihollagh, A. , Bäckström, J. , Norgren, M.
&
Edlund, H. (2017). Influences of the operational variables on electrochemical treatment of chelated Cu(II) in alkaline solutions using a membrane cell. Journal of chemical technology and biotechnology (1986), vol. 92: 6, pp. 1436-1445.
Eivazihollagh, A. , Bäckström, J. , Dahlström, C. , Carlsson, F. , Ibrahem, I. , Lindman, B. , Edlund, H.
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Norgren, M. (2017). One-pot synthesis of cellulose-templated copper nanoparticles with antibacterial properties. Materials letters (General ed.), vol. 187, pp. 170-172.
Eivazihollagh, A. , Tejera, J. , Svanedal, I. , Edlund, H. , Blanco, A.
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Norgren, M. (2017). Removal of Cd2+, Zn2+, and Sr2+ by Ion Flotation, Using a Surface-Active Derivative of DTPA (C12-DTPA). Industrial & Engineering Chemistry Research, vol. 56: 38, pp. 10605-10614.
Articles, reviews/surveys
Norgren, M. , Costa, C. , Alves, L. , Eivazi, A. , Dahlström, C. , Svanedal, I. , Edlund, H.
&
Medronho, B. (2023). Perspectives on the Lindman Hypothesis and Cellulose Interactions. Molecules, vol. 28: 10
Conference papers
Dupaul, G. , Kristoffersson, L. , Paladino, G. , Hacioglu, B. , Gamage, S. , Eivazihollagh, A. , Haller, H. , Holm, S. & et al. (2020). Fiberbanks as substrate and feedstock for biological remediation : A practical analytical method development for organic pollutants analysis. In Book of Abstracts.
Haller, H. , Paladino, G. , Dupaul, G. , Holm, S. , Hadzhaoglu, B. , Eivazihollagh, A. , Gamage, S. , Hedenström, E. & et al. (2020). Polluted lignocellulose waste as a resource for marketable products. In Proceedings Linnaeus ECO-TECH 2020.
Eivazihollagh, A. , Löf, L. , Lindman, B. , Norgren, M. & Edlund, H. (2019). Vesicle-templated all-cellulose nanocapsules. Paper presented at the 6th EPNOE International Polysaccharide Conference, Aveiro, Portugal, 21–25 October, 2019
Norgren, M. , Costa, C. , Yang, J. , Eivazihollagh, A. , Dahlström, C. , Mira, I. , Benjamins, J. , Edlund, H. & et al. (2017). Use of molecular cellulose in dispersions and design of nanocomposites. Paper presented at the ASMCS 2017, Stockholm, Sweden
Norgren, M. , Yang, J. , Costa, C. , Eivazihollagh, A. , Carlsson, F. , Dahlström, C. , Medronho, B. , Edlund, H. & et al. (2017). Water-based dissolution of wood cellulose and design of novel cellulose-based nanocomposite materials. Paper presented at the 253rd ACS National Meeting, San Francisco, April 2–6, 2017
Eivazihollagh, A. , Bäckström, J. , Dahlström, C. , Carlsson, F. , Ibrahem, I. , Edlund, H. & Norgren, M. (2016). One-pot synthesis of cellulose-templated copper nanoparticles with antibacterial properties. Paper presented at the ECIS 2016, Rome, Italy, September 4-9, 2016
Yang, J. , Costa, C. , Eivazihollagh, A. , Carlsson, F. , Dahlström, C. , Medronho, B. , Edlund, H. , Lindman, B. & et al. (2016). Water-based dissolution of wood cellulose and design of novel cellulose-based nanocomposite materials. Paper presented at the Materials for Tomorrow, Gothenburg, Sweden, November 8-10, 2016
Doctoral theses
Eivazihollagh, A. (2018). Metal-Chelate Complexes in Alkaline Solution : On Recovery Techniques and Cellulose-based Hybrid Material Synthesis. Dis. (Comprehensive summary) Sundsvall : Mid Sweden University, 2018 (Mid Sweden University doctoral thesis : 282)