Seyedeh Mona Hosseini-Sarvari, born in Shiraz, Iran, on November 17, 1972, is a highly regarded Iranian chemist. Her academic journey culminated in a Ph.D. in Organic Chemistry from Shiraz University, where she has since made significant contributions to the field.
Author Metrics:
Seyedeh Mona Hosseini-Sarvari boasts impressive author metrics with an h-index of 37 on Google Scholar and 35 on Scopus, reflecting the impact of her scholarly contributions.
Scopus Profile
Orcid Profile
Google Scholar Profile
The h-index is a measure that considers both the number of publications and their respective citations. For the first set, an h-index of 37 suggests that there are 37 papers with at least 37 citations each. For the second set, an h-index of 20 indicates that there are 20 papers with at least 20 citations each.
The i10-index reflects the number of publications with at least 10 citations. For the first set, an i10-index of 90 indicates that there are 90 papers with at least 10 citations each.
These metrics showcase the significant impact and influence of the author’s research in the academic community, particularly in the first set of publications. The h-index and i10-index provide valuable insights into the author’s scholarly contributions and the visibility of their work in the scientific community.
Education:
Hosseini-Sarvari’s educational journey includes a High School Diploma from Asieh High School in Shiraz, followed by a B.Sc. in Pure Chemistry, an M.Sc. in Organic Chemistry, and a Ph.D. in Organic Chemistry, all obtained from Shiraz University.
Research Focus:
Her research primarily centers on various facets of chemistry, spanning organic reactions on solid surfaces, the synthesis and application of nano-catalysts, photocatalysis reactions, and the design and application of green catalytic systems.
Professional Journey:
With a distinguished career at Shiraz University, she has progressed from Assistant Professor to Full Professor, contributing significantly to the field of chemistry. Additionally, she undertook visiting professorships at the University of Pennsylvania, USA, and has been actively involved in international collaborations.
Honors & Awards:
Hosseini-Sarvari’s outstanding contributions have earned her prestigious awards, including Most Cited Paper (2005-2008), recognition in the top 2% of global scientists, and the title of Distinguished Highly Cited Researcher in Shiraz University in 2023.
Publications Top Noted & Contributions:
A prolific author, she has penned books on safety in chemistry laboratories and organic chemistry laboratories. Her extensive list of research articles and book chapters covers green chemistry, organic synthesis, and photocatalysis.
ZnO as a New Catalyst for N-Formylation of Amines under Solvent-Free Conditions
- Authors: M Hosseini-Sarvari, H Sharghi
- Journal: The Journal of Organic Chemistry
- Year: 2006
- Metrics: 343 citations
- Abstract: This work presents zinc oxide (ZnO) as an efficient catalyst for N-formylation of amines under solvent-free conditions, offering a simple and economical method in organic synthesis.
Reactions on a Solid Surface. A Simple, Economical, and Efficient Friedel− Crafts Acylation Reaction over Zinc Oxide (ZnO) as a New Catalyst
- Authors: MH Sarvari, H Sharghi
- Journal: The Journal of Organic Chemistry
- Year: 2004
- Metrics: 279 citations
- Abstract: The study introduces ZnO as a cost-effective and efficient catalyst for Friedel−Crafts acylation reactions on a solid surface, providing a valuable alternative in organic transformations.
Zinc Oxide (ZnO) as a New, Highly Efficient, and Reusable Catalyst for Acylation of Alcohols, Phenols, and Amines under Solvent-Free Conditions
- Authors: MH Sarvari, H Sharghi
- Journal: Tetrahedron
- Year: 2005
- Metrics: 182 citations
- Abstract: The research highlights ZnO as a versatile and reusable catalyst for the acylation of alcohols, phenols, and amines under solvent-free conditions, contributing to green and sustainable synthesis practices.
TiO2 as a New and Reusable Catalyst for One-Pot Three-Component Syntheses of α-Aminophosphonates in Solvent-Free Conditions
- Author: M Hosseini-Sarvari
- Journal: Tetrahedron
- Year: 2008
- Metrics: 162 citations
- Abstract: This work explores the utility of TiO2 as a novel and reusable catalyst for one-pot three-component syntheses of α-aminophosphonates, offering an efficient approach in solvent-free conditions.
A Direct Synthesis of Nitriles and Amides from Aldehydes Using Dry or Wet Alumina in Solvent-Free Conditions
- Authors: H Sharghi, MH Sarvari
- Journal: Tetrahedron
- Year: Not specified
- Abstract: The study presents a direct synthesis of nitriles and amides from aldehydes using dry or wet alumina in solvent-free conditions, providing insights into practical and eco-friendly synthetic methodologies.
Research Timeline:
Her research timeline is marked by various projects, including investigations into organic reactions on solid surfaces, the utilization of nano-catalysts, and the development of advanced photocatalytic systems.
Books:
Notable publications include “Safety in the Chemistry Laboratories” (2010) and “Organic Chemistry Laboratories Macro Scale and Micro Scale” (2011), showcasing her commitment to education and laboratory safety.
Conferences:
Hosseini-Sarvari has been an active participant in national and international conferences, presenting findings and engaging in the exchange of ideas within the scientific community.
