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Assist Prof Dr. Raziyeh Arabahmadi | Design of Molecular Sensors | Best Paper Award

Assistant of professor at Chemistry Department, Payame Noor University (PNU), Iran

Summary:

Raziyeh Arabahmadi, an accomplished Associate Professor of Inorganic Chemistry at Payame Noor University (PNU), is renowned for her groundbreaking research in chemosensors and molecular logic circuits. With a Ph.D. in Inorganic Chemistry from Arak University and over 20 highly cited articles, Arabahmadi’s work focuses on designing and synthesizing sensors for detecting hazardous anions and cations, aiming to improve human health and environmental monitoring. Her innovative approach includes developing sensors that function as combinatorial logic circuits, showcasing her expertise in molecular sensing technologies. Arabahmadi’s dedication to advancing knowledge in chemistry, coupled with her commitment to mentoring students, underscores her impact in academia and research.

Professional Profile:

šŸ‘©ā€šŸŽ“Education:

Assist. Prof. Dr. Raziyeh Arabahmadi completed her Bachelor’s degree in Inorganic Chemistry from Arak University. She then pursued her Ph.D. in Inorganic Chemistry, which she obtained from Arak University in 2012. Her educational background provided her with a solid foundation in chemistry, particularly inorganic chemistry, which serves as the basis for her research and academic career.

Professional Experience:

Raziyeh Arabahmadi brings extensive professional experience in academia and research, primarily centered around her role as a lecturer and researcher at Payame Noor University (PNU) since 2013. Advancing from lecturer to Associate Professor of Inorganic Chemistry, she has contributed significantly to both teaching and research. Arabahmadi’s expertise lies in chemosensors, molecular logic gates, and coordination chemistry. Her research has yielded over 20 highly cited articles, focusing on the design and synthesis of sensors for detecting important cations and anions. Particularly notable is her work on azo-azomethine and Schiff base sensors, which can function as combinatorial logic circuits. Arabahmadi’s dedication to advancing knowledge in chemistry, coupled with her commitment to mentoring students, underscores her impact in academia and research.

Research Interest:

Raziyeh Arabahmadi’s research interests revolve around the development and application of chemosensors for various analytical purposes. Specifically, she is intrigued by the design and synthesis of novel molecular sensors capable of detecting hazardous anions and cations in the environment. Arabahmadi aims to contribute to improving human health and environmental sustainability through the utilization of biomolecular sensors and molecular logic circuits. Her research focuses on the enhancement of sensor sensitivity, selectivity, and efficiency, with the ultimate goal of simplifying disease recognition and facilitating environmental monitoring. Additionally, she is interested in exploring the potential of coordination chemistry in developing advanced sensor materials. Arabahmadi’s research endeavors reflect her dedication to advancing knowledge in sensor technology and its practical applications in healthcare and environmental science.

Award and Honors:

Raziyeh Arabahmadi’s contributions to the field of chemistry have earned her several notable awards and honors. Among these recognitions is the Best Paper Award, acknowledging the excellence of her research publications. Arabahmadi’s work has also garnered attention for its impact, resulting in a substantial citation index in reputable databases such as Scopus, Web of Science, or PubMed. Furthermore, her expertise and contributions have been acknowledged through editorial appointments in prominent journals and conferences, where she serves as an editor, reviewer, or member of the editorial board. These awards and honors underscore Arabahmadi’s significant achievements in the field of chemistry and her dedication to advancing scientific knowledge through research and scholarly activities.

Research Skills:

Raziyeh Arabahmadi possesses a diverse array of research skills honed through her extensive academic and professional experience. Her expertise spans various aspects of the research process, including formulating research questions, designing experiments, and developing theoretical frameworks. Arabahmadi excels in data collection, employing both qualitative and quantitative methods as appropriate for her research inquiries. She demonstrates proficiency in data analysis, utilizing advanced statistical techniques and software tools to derive meaningful insights from her datasets. Additionally, Arabahmadi is skilled in experimental design and implementation, leveraging simulation tools and laboratory techniques to validate theoretical models and hypotheses. Furthermore, she fosters interdisciplinary collaboration, effectively communicating and collaborating with researchers from diverse backgrounds. Arabahmadi’s research skills are characterized by creativity, rigor, and a commitment to advancing scientific knowledge in the field of chemistry.

Publication Top Noted:

  1. Biosensor with laser-sealed capillary space and method of making
    • Authors: RA Ahmadi, S Amani
    • Year: 2012
    • Citations: 115
    • Journal: Molecules
  2. Azo Schiff bases as colorimetric and fluorescent sensors for recognition of Fāˆ’, Cd 2+ and Hg 2+ ions
    • Authors: R Arabahmadi, M Orojloo, S Amani
    • Year: 2014
    • Citations: 43
    • Journal: Analytical Methods
  3. A new fluoride ion colorimetric sensor based on azoā€“azomethine receptors
    • Authors: R Arabahmadi, S Amani
    • Year: 2014
    • Citations: 26
    • Journal: Supramolecular Chemistry
  4. A selective chemosensor and fluorescence probe for relay recognition of cations and fluoride ions in aqueous media with logic gate function
    • Author: R Arabahmadi
    • Year: 2019
    • Citations: 23
    • Journal: Talanta
  5. Ni (II), Cu (II), AND Zn (II) Complexes derived from a new Schiff base 2-((Z)-(3-methylpyridin-2-yleimino) methyl) phenol and synthesis of nano sized metal oxide particles from ā€¦
    • Authors: M Orojloo, F Nourian, R Arabahmadi, S Amani
    • Year: 2015
    • Citations: 23
    • Journal: QuĆ­mica Nova
  6. Synthesis, spectroscopy, and magnetic characterization of copper (II) and cobalt (II) complexes with 2-amino-5-bromopyridine as ligand
    • Authors: R Arab Ahmadi, F Hasanvand, G Bruno, H Amiri Rudbari, S Amani
    • Year: 2013
    • Citations: 22
    • Journal: International Scholarly Research Notices
  7. Synthesis and studies of selective chemosensors for anions and cations by azo-containing salicylaldimine-based receptors
    • Authors: R Arabahmadi, S Amani
    • Year: 2013
    • Citations: 18
    • Journal: Journal of Coordination Chemistry
  8. Antipyrine-based Schiff base as fluorogenic chemosensor for recognition of Zn2+, Cu2+ and H2PO4āˆ’ in aqueous media by comparator, half subtractor and integrated logic circuits
    • Author: R Arabahmadi
    • Year: 2022
    • Citations: 14
    • Journal: Journal of Photochemistry and Photobiology A: Chemistry
  9. Design and synthesis of a novel azo-Schiff base ligand: Its application as a colorimetric chemosensor for selective detection of Ni2+ and CNā€“in aqueous-organic media ā€¦
    • Authors: S Kamali, M Orojloo, R Arabahmadi, S Amani
    • Year: 2022
    • Citations: 13
    • Journal: Journal of Photochemistry and Photobiology A: Chemistry
  10. Hydrazone-based Schiff base dual chemosensor for recognition of Cu2+ and Fāˆ’ by 1: 2 demultiplexer, half adder, half subtractor, molecular keypad lock and logically reversible ā€¦
    • Author: R Arabahmadi
    • Year: 2022
    • Citations: 13
    • Journal: Journal of Photochemistry and Photobiology A: Chemistry

 

 

Raziyeh Arabahmadi | Design of Molecular Sensors | Best Paper Award

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