Shima MOMENIAZANDARYANI

Accomplished Multidisciplinary Research Chemist with experience in the field of organic chemistry, analytical chemistry, electrochemistry, and microfluidics. Theoretical backgrounds in biochemistry, medicinal chemistry, drug development, and discovery. Extensive experience in organic synthesis techniques (electrosynthesis, organic synthesis, and microfluidics techniques). Proficient in performing tests, documenting results, and writing papers. Well-organized and detail-oriented with good project management and planning abilities gained through 5 years of experience in supervising Masters and Ph.D students. Expertise in various analytical and purification methods and instrumentation such as GC, LC-MS, HPLC, Spectroscopy NMR, IR, MS, UV-Vis. A team player but also flexible to work independently. Enthusiast on innovation and multidisciplinary projects. A person who likes to work with evolving challenges and also, most known for out-of-the-box thinking, active listening, and tireless dedication. A quick learner with curiosity and willingness to learn new skills. Interested in joining a multi-disciplinary team that promotes professional growth, offers professional challenges as well as provides an opportunity to utilize and enhance skills.

1) Electrosynthesis of New Quinone Sulfonimide Derivatives in Conventional Batch and a New Electrolyte
Free Flow Cells- S. Momeni, D. Nematollahi, Green chemistry-2018- impact factor: 10.18

2) New insights into the electrochemical behavior of acid orange 7: Convergent paired electrochemical
synthesis of new aminonaphthol derivatives, S. Momeni, D. Nematollahi - Scientific Reports, 2017, 7: p.
41963. impact factor: 4.1. DOI:10.1038/srep41963

3) Electrolyte-free paired electrosynthesis of some pyrimidine derivatives using flow electrochemistry as a
powerful technology-S. Momeni, D. Nematollahi, Submitted at Journal of Electroanalytical Chemistry,
2019. impact factor:4.5

4) Different strategies in electrochemical synthesis of new mono and di-substituted hydroquinone and
benzoquinone, D. Nematollahi, S. Momeni, S. Khazalpour - Electrochimica Acta, 2014, 147: p. 310-318.
impact factor: 7.0. DOI: 10.1016/j.electacta.2014.09.122

5) A green electrochemical method for the synthesis of acetaminophen derivatives, D. Nematollahi, S. Momeni,
S. Khazalpour - Journal of The Electrochemical Society, 2014, 161(3): p. H75-H78. impact factor: 3.7. DOI:
10.1149/2.022403jes

6) A green strategy for the synthesis of sulfone derivatives of p-methylaminophenol: Kinetic evaluation and
antibacterial susceptibility, D. Nematollahi, S. Khazalpour, M. Ranjbar, S. Momeni - Scientific Reports,
2017, 7(1): p. 4436. impact factor: 4.1. DOI:10.1038/s41598-017-04581-0.

7) Cyclic voltammetry-assisted mechanistic evaluation of sulfonamide synthesis. A simple and green method
for the synthesis of N-(1-hydroxynaphthalen-2-yl) benzenesulfonamide derivatives, D. Nematollahi, A.
Namdar, S. Momeni - Journal of Electroanalytical Chemistry, 2018. impact factor: 4.5. DOI:
org/10.1016/j.jelechem.2018.01.001

8) Electrochemical synthesis of new organic compounds based on the oxidation of 1, 4-dihydroxybenzene
derivatives in the presence of primary and secondary amines, D. Nematollahi, H. Hesari, H. Salehzadeh, M.
Hesari, and S. Momeni- Comptes Rendus Chimie, 2016, 19(3): p. 357-362. impact factor: 3.1. DOI:
10.1016/j.crci.2015.11.003

9) Electrochemical study of dibenzo-xanthene and dihydrobenzochromono pyrazole derivatives, M. Masoudi,
M. Zarei, S. Momeni, M. Zolfigol and D. Nematollahi, Submitted at Electrochimica Acta, impact factor: 7.0

10) Chemical resistance of microfluidic materials, October 2021: https://www.elveflow.com/microfluidicreviews/general-microfluidics/chemical-resistance-of-microfluidic-materials

10) Chemical resistance of microfluidic materials, October 2021: https://www.elveflow.com/microfluidicreviews/general-microfluidics/chemical-resistance-of-microfluidic-materials

Poster presentations:
NanoBioTech-Montreux Conference 15-17 November 2021 – Montreux, Switzerland
“A novel approach for synthesis of methylene blue using an enhanced electrochemical microfluidic cell”.

“Electrochemical Synthesis of the New Substituted Acetaminophen”. The 10th Iranian Biennial Electrochemistry
Seminar (IBES10), Razi University, Kermanshah, Iran, 17-19 July 2012.

“Electrochemical Reduction of 2-naphthol orange in the Presence of Arylsulfinic acids and Synthesis of New
Derivatives of 1-amino-2-naphthol”. 23rd Iranian Seminar of Organic Chemistry. University of Kurdistan, Sanandaj,
September 8-10, 2015.

“A Green Approach for the Electrosynthesis of New Sulfonamide Derivatives Using 4,4′-Diaminodiphenyl ether”.
12th Biennial Electrochemistry Seminar of Iran. University of Isfahan, May 3-4, 2017.

“Investigation of the Electrochemical Behavior of Some Bis(4-aminophenyl) Derivatives in Aqueous Solution”. 12th
Biennial Electrochemistry Seminar of Iran. University of Isfahan, May 3-4, 2017

Synthesis methods, Electrochemical synthesis; organic chemistry, Electrochemical determination; Industrial
electrochemistry; Green chemistry; Pair electrosynthesis, Microfluidics, Electrochemical Characterization,
Microfabrication, Photolithography, Soft Lithography, Flow chemistry; Electrochemical flow cells; Design and
development of electrochemical reactors, pharmaceutical industries, drug discovery

Drug Development Product Management ( include 3 course of Drug Discovery, Drug Development, Drug Commercialization)