Carmen-Irena Mitan | Organic Chemistry | Academic Collaboration Catalyst Award

Dr. Carmen-Irena Mitan | Organic Chemistry | Academic Collaboration Catalyst Award

Dr. Carmen-Irena Mitan, “C.D. Nenitescu” Institute of Organic and Supramolecular Chemistry, Romania

Dr. Carmen-Irena Mitan is a prominent researcher at the Institute of Organic and Supramolecular Chemistry “Costin D. Nenitzescu” of the Romanian Academy. With a Ph.D. in Organic Chemistry (2003), her work focuses on synthesizing azasugars and coumarin dyes with biological activity. She has held various academic positions, including postdoctoral researcher at the University of Illinois at Chicago. Dr. Mitan has published extensively, contributing to advancements in organic synthesis and stereochemistry. Her dedication to research and collaboration fosters innovation in the field of chemistry. 📚🌍

Publication Profile

Orcid

Academic Qualifications

Her academic credentials include a Master’s degree in Organic Chemistry (1996-1997) and a Ph.D. in Organic Chemistry (1998-2003), focusing on significant topics such as cycloaddition reactions and the synthesis of azasugars with biological activity. Such a strong academic foundation supports her ability to lead and contribute to collaborative research projects.

Extensive Research Background

Dr. Mitan has been involved in research since 1997, accumulating over two decades of experience in organic chemistry. This longevity in the field highlights her commitment and contribution to scientific inquiry.

Research Interests

Synthesis of azasugars and coumarin dyes, showcasing her expertise in synthetic organic chemistry.

Advanced studies in stereochemistry and metathesis, which could attract collaborations in cutting-edge research areas.

Characterization techniques involving NMR, IR, and MS, demonstrating her proficiency in analytical methods crucial for successful research partnerships

Conclusion

Dr. Carmen-Irena Mitan’s robust academic background, diverse research experience, and expertise in organic chemistry make her an excellent candidate for the Research for Academic Collaboration Catalyst Award. Her dedication to advancing research and fostering collaboration aligns perfectly with the goals of this award.

Publication Top Notes

  1. 3-Sphere approach on 9-O-(10,11-di-O-benzyl-12,14-O-benzylidene-alpha-D-galactopyranosyl)-1-butyl-2,3-O-isopropylidene-1,4-dideoxy-1,4-imino-1-N-dehydro-L-ribitol
    • Authors: Robert Michael Moriarty, Carmen-Irena Mitan, Emerich Bartha, Petru Filip, Rajesh Naithani, Timothy Block
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2024
  2. Java Script programs for calculation of dihedral angles with manifold equations
      • Authors: C.-I. Mitan, E. Bartha, P. Filip, C. Draghici, M.-T. Caproiu, R. M. Moriarty
      • Published in: Science Journal of Chemistry
      • Year: 2024
  3. Mechanistic aspects of the ring-closing enyne metathesis catalyzed by ruthenium-alkylidene complexes
    • Authors: C.-I. Mitan, P. Filip, L. Delaude, V. Dragutan
    • Published in: Journal of Organometallic Chemistry
    • Year: 2024
  4. α,ÎČ‐C—C—C Agostic Bonding Interactions in Ruthenacyclobutane and π‐Complex Assisted Olefin Metathesis Catalyzed by Ruthenium‐Alkylidene Complexes
    • Authors: Carmen‐Irena Mitan, Valerian Dragutan, Petru Filip
    • Published in: International Journal of Quantum Chemistry
    • Year: 2024
  5. 3-Sphere Tetrahedral Angles and Phase Angle of the Pseudorotation P[deg] of C1-CH3-α-D Ribitol Iminocyclitol
      • Authors: Petru Filip, Carmen Mitan, Emerich Bartha
      • Published in: Science Journal of Chemistry
      • Year: 2024
  6. 3-Sphere tetrahedral angles and phase angle of the pseudorotation P[deg] of C1-R-alpha-D ribitol
      • Authors: P. Filip, C.-I. Mitan, E. Bartha
      • Published in: Science Journal of Chemistry
      • Year: 2024
  7. 3-Sphere Torsional Angles and Six Membered Ring Conformation
    • Authors: E. Bartha, C.-I. Mitan, P. Filip
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2023
  8. Concerted [2+2] oxidative cycloaddition cycloreversion versus cyclopropanation reaction at M-carbene center
    • Authors: Carmen-Irena Mitan
    • Published in: Science Journal of Chemistry
    • Year: 2023
  9. Configurational and Conformational analysis of 5-deoxy-5-iodo-alpha,beta-D-ribose with 3-Sphere approach
    • Authors: C.-I. Mitan, E. Bartha, A. HĂźrtopeanu, C. Stavarache, C. Draghici, M. T. Caproiu, M. Maganu, P. Filip
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2023

Tamer El Malah | Organic chemistry | Best Researcher Award

Prof. Tamer El Malah | Organic chemistry | Best Researcher Award

Prof. Tamer El Malah, National Research Centre, Egypt

Prof. Dr. Tamer El Malah is a distinguished chemist, currently a professor at the National Research Centre, Giza, Egypt. He holds a Ph.D. in synthetic organic chemistry from Humboldt-UniversitĂ€t zu Berlin, Germany, where he specialized in hierarchical self-assembly of folded amphiphiles. With over 14 h-index publications, his research focuses on organic synthesis, anticancer compounds, and click chemistry. Dr. El Malah has teaching experience in Germany and Saudi Arabia and is fluent in Arabic, English, and German. He has co-authored numerous papers in leading journals, contributing significantly to the field of chemistry. 🌍đŸ§Ș📚

 

Publication profile

Academic Background

Prof. El Malah holds a Ph.D. from Humboldt-UniversitÀt zu Berlin, one of the top universities in Germany, where he conducted research on hierarchical self-assembly of folded amphiphiles. His education, which includes an M.Sc. and B.Sc. from Ain Shams University, Cairo, reflects a strong foundation in chemistry, with significant exposure to synthetic organic chemistry.

Professional Experience

He is currently a professor at the National Research Centre, Giza, Egypt, with a track record of academic roles including assistant professorships and postdoctoral work in Germany and Saudi Arabia. His teaching experience spans over seven years, which demonstrates his contribution to academic development alongside his research work.

Research Skills and Specializations

Prof. El Malah is an expert in synthetic organic chemistry, with professional skills in the use of advanced analytical techniques such as NMR, HPLC-MS, GPC, and others. His expertise in chemical synthesis and its applications in anticancer research and molecular docking makes his work particularly impactful in both academic and applied sciences.

Conclusion

With extensive contributions to both the academic community and cutting-edge chemical research, particularly in the development of compounds with anticancer and antimicrobial properties, Prof. Tamer El Malah stands out as a deserving candidate for the Best Researcher Award. His strong publication record, impactful research, and international collaboration mark him as a leader in his field.

 

Publication Top Notes  

  • Design, synthesis, and antimicrobial activities of 1, 2, 3-triazole glycoside clickamers – 122 citations (2020) 🩠📅
  • Designing Structural Motifs for Clickamers: Exploiting the 1, 2, 3‐Triazole Moiety to Generate Conformationally Restricted Molecular Architectures – 114 citations (2011) đŸ§Źâš™ïž
  • Adsorption studies on the removal of COD and BOD from treated sewage using activated carbon prepared from date palm waste – 92 citations (2017) 🌮💧
  • Modulating Large‐Area Self‐Assembly at the Solid–Liquid Interface by pH‐Mediated Conformational Switching – 60 citations (2009) âš›ïžđŸŒŠ
  • A bipyridinium-based polyhydrazone adsorbent that exhibits ultrahigh adsorption capacity for the anionic azo dye, direct blue 71 – 53 citations (2021) 🎹🔬
  • Identification of Novel and Efficacious Chemical Compounds that Disturb Influenza A Virus Entry in vitro – 53 citations (2017) 🩠💉
  • Conformationally pre-organized and pH-responsive flat dendrons: synthesis and self-assembly at the liquid–solid interface – 35 citations (2012) đŸ§ȘđŸ§±
  • Anticancer evaluation of tris (triazolyl) triazine derivatives generated via click chemistry – 32 citations (2016) đŸ§«đŸ§Ź
  • Modulating the self-assembly of rigid “clicked” dendrimers at the solid–liquid interface by tuning non-covalent interactions between side groups – 31 citations (2011) âš›ïžđŸ”—
  • Amphiphilic Folded Dendrimer Discs and Their Thermosensitive Self‐Assembly in Water – 30 citations (2012) 💧đŸ§Ș

 

 

Taek Hyeon Kim | Organic Chemistry | Best Researcher Award

Prof Dr. Taek Hyeon Kim | Organic Chemistry | Best Researcher Award

Prof Dr. Taek Hyeon Kim, Chonnam National University, South Korea

Publication profile

Academic and Professional Background

Prof. Dr. Taek Hyeon Kim earned his Ph.D. from Korea Advanced Institute of Science and Technology (KAIST). He furthered his expertise through a postdoctoral course at UC Berkeley, USA, and worked with SK Innovation in Korea. He served as the Dean of the College of Engineering at Chonnam National University. Recognized as one of the top 30 researchers by the National Research Foundation of Korea in 2002, he has published over 100 SCI papers and holds 8 Korean patents. He is a member of the Korean Chemical Society, The Polymer Society of Korea, and The Korean Society of Industrial and Engineering Chemistry.

Areas of Research

Prof. Kim’s research focuses on organocatalysis, organic synthesis, and organic synthetic methods. He has extensively studied the development of novel synthetic methodologies and chiral auxiliaries, as well as solid-phase synthesis and molecular recognition. His work contributes significantly to asymmetric reactions and the broader field of organic chemistry.

Contributions

Prof. Kim’s 30-year research career has been marked by pioneering work in organic synthetic methodologies. His initial research aimed at creating novel organic phosphorus compounds for Wittig reactions. During his postdoctoral tenure in Henry Rapoport’s group, he worked on synthesizing important organic compounds using amino acids. At Chonnam National University, he has continued to advance research on chiral auxiliaries, solid-phase synthesis, molecular recognition, and organic catalysts for asymmetric reactions.

Publication Top Notes

  • Synthesis of ethyl 3-cyano-2-methylcinnamates and 3-cyano-2-methylcinnamonitriles from the Baylis–Hillman acetates
    YM Chung, JH Gong, TH Kim, JN Kim
    Tetrahedron Letters 42 (51), 9023-9026
    📚 85 ⏳ 2001
  • Melt grafting of maleimides having hindered phenol antioxidant onto low molecular weight polyethylene
    TH Kim, DR Oh
    Polymer degradation and stability 84 (3), 499-503
    📚 72 ⏳ 2004
  • Melt free‐radical grafting of hindered phenol antioxidant onto polyethylene
    TH Kim, HK Kim, DR Oh, MS Lee, KH Chae, S Kaang
    Journal of applied polymer science 77 (13), 2968-2973
    📚 69 ⏳ 2000
  • Synthesis of 1, 3-disubstituted naphthalenes from the Baylis–Hillman acetates with the aid of manganese (III) acetate
    YJ Im, KY Lee, TH Kim, JN Kim
    Tetrahedron letters 43 (26), 4675-4678
    📚 67 ⏳ 2002
  • Regioselective construction of polysubstituted pyridine ring from Baylis–Hillman adducts via sequential introduction of tosylamide, Michael reaction, aldol condensation, and 

    MJ Lee, TH Kim, JN Kim
    Tetrahedron letters 46 (50), 8799-8803
    📚 57 ⏳ 2005
  • Efficient synthesis of 2-methylaminothiazolines via Mitsunobu reaction of N-(2-hydroxyethyl)-Nâ€Č-methyl-thioureas
    TH Kim, MH Cha
    Tetrahedron letters 40 (16), 3125-3128
    📚 54 ⏳ 1999
  • Regiocontrolled cyclization reaction of N-(2-hydroxyethyl) ureas by transfer of activation: one-pot synthesis of 2-imidazolidinones
    TH Kim, GJ Lee
    The Journal of organic chemistry 64 (8), 2941-2943
    📚 48 ⏳ 1999
  • Pd-Mediated synthesis of 7H-benzo [3, 4] azepino [1, 2-a] indole-6-carboxylic acid derivatives from indole-containing Baylis–Hillman adducts
    HS Lee, SH Kim, TH Kim, JN Kim
    Tetrahedron Letters 49 (11), 1773-1776
    📚 47 ⏳ 2008
  • Regioselective synthesis of polysubstituted phenol derivatives from Baylis–Hillman adducts via [3+ 3] annulation strategy
    SJ Kim, TH Kim, JN Kim
    Tetrahedron letters 47 (35), 6315-6319
    📚 45 ⏳ 2006
  • A mild cyclodesulfurization of N-(2-hydroxyethyl)-Nâ€Č-phenylthioureas to 2-phenylamino-2-oxazolines using TsCl/NaOH
    TH Kim, N Lee, GJ Lee, JN Kim
    Tetrahedron 57 (33), 7137-7141
    📚 41 ⏳ 2001
  • A water‐developable negative photoresist based on the photocrosslinking of N‐phenylamide groups with reduced environmental impact
    KH Chae, GJ Sun, JK Kang, TH Kim
    Journal of applied polymer science 86 (5), 1172-1180
    📚 37 ⏳ 2002
  • S-Benzyl isothiouronium chloride as a recoverable organocatalyst for the direct reductive amination of aldehydes
    QPB Nguyen, TH Kim
    Tetrahedron letters 52 (39), 5004-5007
    📚 34 ⏳ 2011


Conclusion

Prof. Dr. Taek Hyeon Kim’s extensive experience, impactful research contributions, and significant academic achievements make him a strong candidate for the Research for Best Researcher Award. His innovative work in organic synthesis and catalytic methods aligns well with the award’s criteria, highlighting his excellence and influence in the field.

 

Deepshikha Gupta | Organic chemistry | Best Researcher Award

Prof. Deepshikha Gupta | Organic chemistry | Best Researcher Award

Professor, Amity Institute of Applied Sciences, Amity University Noida, India

Deepshikha Gupta is a distinguished academic and researcher in the field of Chemistry, currently serving as a Professor at Amity University, Noida, Uttar Pradesh, India, since March 2023. She has been a faculty member at Amity University since August 2006, where she initially held the position of Associate Professor.

 

Publication Profile

Strengths for the Award:

  1. Extensive Research Experience: Dr. Deepshikha Gupta has a prolific research background, with numerous publications in high-impact journals and contributions to various books. Her research focuses on cutting-edge topics like natural products, nanomaterials, and their applications in medicine, which are highly relevant and impactful in current scientific discourse.
  2. Multidisciplinary Expertise: Her work spans across multiple disciplines, including chemistry, nanotechnology, and materials science, demonstrating her versatility and ability to contribute to diverse fields.
  3. International Recognition: Dr. Gupta’s research is widely recognized internationally, as evidenced by her numerous citations, multiple Scopus Author IDs, and extensive publication history in reputed journals and conferences.
  4. Sustainability Focus: Her recent work on sustainable approaches to nanoparticle synthesis highlights her commitment to addressing global challenges like environmental sustainability, which is increasingly valued in contemporary research.

Areas for Improvement:

  1. Industry Collaboration: While her academic achievements are significant, there is limited evidence of direct collaboration with industry, which could enhance the practical application and commercialization of her research findings.
  2. Impact on Policy: Her research could benefit from a more pronounced impact on policy-making, particularly in areas like environmental protection and public health, where her work on nanomaterials and natural products could provide valuable insights.
  3. Public Engagement: Increasing her involvement in public science communication and outreach activities could help bridge the gap between her research and societal understanding, thereby amplifying the impact of her work.

 

🎓 Education:

Dr. Deepshikha Gupta earned her Ph.D. in Chemistry from Jai Narain Vyas University, Jodhpur, Rajasthan, India, completing her degree in August 2000.

🏱  Experience:

Dr. Gupta has an extensive academic career at Amity University, Noida, Uttar Pradesh, where she has served as an Associate Professor of Chemistry since August 2006. Recently, in March 2023, she was promoted to the position of Professor at the same institution, where she continues to contribute significantly to the field of chemistry.

🔬 Research Interests:

Dr. Gupta’s research focuses on natural products, antioxidant potential, antimicrobial activity, and metal oxide nanoparticles. Her work has made substantial contributions to these areas, emphasizing sustainable and green chemistry approaches.

📚 Publications:

Dr. Gupta has an impressive portfolio of scholarly work, including numerous journal articles and book chapters. Some of her recent publications include:

“Rethinking Nanoparticle Synthesis: A Sustainable Approach vs. Traditional Methods” in Chemistry – An Asian Journal (2024).

“Industrial Applications of Nanoparticle Immobilized Enzymes” in Nano-Enzyme Incorporated Particles (2024).

“Coumarin—Synthetic Methodologies, Pharmacology, and Application as Natural Fluorophore” in Topics in Current Chemistry (2024).

“A Review on Hydrogels for Smart Drug Delivery Systems and their Mathematical Modelling” in Current Materials Science (2024).

“Synthesis of Gold Nanoparticles and Their Applications in Cancer Therapy” in Biointerface Research in Applied Chemistry (2024).

 

Conclusion:

Dr. Deepshikha Gupta is a strong candidate for the Best Researcher Award due to her extensive research contributions, multidisciplinary expertise, and international recognition. Her work on sustainable nanoparticle synthesis and natural products is particularly commendable. However, she could further strengthen her candidacy by enhancing industry collaborations, influencing policy, and engaging with the public to maximize the societal impact of her research. Overall, she is a highly deserving candidate for the award.

 

Manijeh nematpour | organic chemistry | Best Researcher Award

Dr. Manijeh nematpour | organic chemistry | Best Researcher Award

Dr. Manijeh nematpour, Farhangian university, tehran, iran

Dr. Manijeh Nematpour, an accomplished academic, is an Assistant Professor at Farhangian University’s Department of Chemistry Education in Tehran, Iran. She holds a Postdoctoral degree in Pharmaceutical Chemistry from Shahid Beheshti University and completed her Ph.D. in Organic Chemistry at Tarbiat Modares University. Her research focuses on organic synthesis, particularly in heterocyclic and pharmaceutical chemistry. With a robust academic background spanning from Mazandaran University to her current role, Dr. Nematpour is recognized for her contributions to the field, evident in her publications and scholarly activities. 🎓🔬

 

Publication Profile

Scopus

Google Scholar

🎓 Education

Dr. Nematpour earned her Postdoctoral degree in Pharmaceutical Chemistry (2016-2020) from Shahid Beheshti University of Medical Sciences, Tehran, supervised by Sayyed Abass Tabataba’i. She completed her Ph.D. in Organic Chemistry (2011-2014) and M.Sc. in Organic Chemistry (2008-2010) at Tarbiat Modares University, Tehran, under the guidance of Issa Yavari. Her B.Sc. in Chemistry (2004-2008) was obtained from Mazandaran University, specializing in Pure Chemistry.

 

Research Focus

Dr. Manijeh Nematpour’s research primarily focuses on organic synthesis, particularly in the development of novel methodologies for creating functionalized heterocyclic compounds. Her work spans various aspects of pharmaceutical chemistry, including the synthesis of pyrazoles, pyrimidines, azet-2-imines, and other complex molecular structures using copper-catalyzed reactions and multicomponent reactions. These contributions are significant for their potential applications in drug discovery and development. Dr. Nematpour’s expertise lies in leveraging organic chemistry principles to design and synthesize compounds with potential pharmacological activities, contributing to advancements in medicinal chemistry. 🔬đŸ§Ș

 

Publication Top Notes

  • Ph3P-mediated one-pot synthesis of functionalized 3,4-dihydro-2H-1,3-thiazines from N,Nâ€Č-dialkylthioureas and activated acetylenes in water 📚 73 citations (2010)
  • Copper-catalyzed one-pot synthesis of tetrasubstituted pyrazoles from sulfonyl azides, terminal alkynes, and hydrazonoyl chlorides 📚 51 citations (2012)
  • Copper-catalyzed tandem synthesis of tetrasubstituted pyrimidines from alkynes, sulfonyl azides, trichloroacetonitrile, and tetramethylguanidine 📚 29 citations (2013)
  • Tandem synthesis of highly functionalized pyrazole derivatives from terminal alkynes, sulfonyl azides, diethyl azadicarboxylate, and sodium arylsulfinates 📚 29 citations (2012)
  • Synthesis of Functionalized Tetrahydro‐4‐oxoindeno[1,2‐b]pyrroles from Ninhydrin, Acetylenedicarboxylates, and Primary Amines 📚 29 citations (2010)
  • Copper-Catalyzed One-Pot Synthesis of Functionalized 1, 4-Dihydroazete Derivatives from Sulfonyl Azides, Terminal Alkynes, and Tetramethylguanidine 📚 26 citations (2012)
  • One-pot synthesis of 2, 6-diamino-4-sulfonamidopyrimidines from sulfonyl azides, terminal alkynes and cyanoguanidine 📚 26 citations (2012)
  • Design, synthesis and anti-diabetic activity of novel 1, 2, 3-triazole-5-carboximidamide derivatives as dipeptidyl peptidase-4 inhibitors 📚 22 citations (2020)
  • Copper-catalyzed tandem synthesis of highly functionalized bisamidines 📚 21 citations (2013)
  • A copper-catalyzed synthesis of functionalized quinazolines from isocyanides and aniline tri-and dichloroacetonitrile adducts through intramolecular C–H activation 📚 18 citations (2017)

Wang Lijia | Organic Chemistry | Best Researcher Award

Prof. Wang Lijia | Organic Chemistry | Best Researcher Award

Professor, East China Normal University, China

đŸ‘©â€đŸ”Ź Lijia Wang is a distinguished professor of organic chemistry at East China Normal University. She has made significant contributions to the field of asymmetric catalysis and the total synthesis of natural products. Her innovative approaches and research excellence have earned her a reputable position in the scientific community.

Profile

orcid

Education

🎓 Lijia Wang obtained her Ph.D. in organic chemistry from Sichuan University in 2009, under the guidance of Prof. Xiaoming Feng. Prior to that, she completed her Bachelor of Science in Chemistry at Sichuan University in 2004, with Dr. Meng Yang as her advisor.

Experience

đŸ’Œ Lijia Wang is currently a professor at East China Normal University, a position she has held since February 2019. Before this, she was an associate professor at the Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, from August 2011 to February 2019. Her postdoctoral fellowship at Kyoto University, working with Prof. Keiji Maruoka, further solidified her expertise in organic chemistry from September 2009 to July 2011.

Research Interests

🔬 Lijia Wang specializes in asymmetric catalysis and the total synthesis of natural products. Her research focuses on the development of novel methods for transition-metal-catalyzed enantioselective tandem cyclization reactions and strategies for stereoselective divergent synthesis of polycyclic spiroindolines. Her work has led to the efficient synthesis of biologically active complex molecules and the synthesis of several natural products, including strychnine and akumicine.

Awards

🏆 Lijia Wang has been recognized for her innovative contributions to chemistry with several awards, including election to the Youth Innovation Promotion Association by the Chinese Academy of Sciences in 2017 and the JSPA Lectureship Award in Japan in 2024.

Publications Top Notes

📚 Selected Publications by Lijia Wang:

Copper Catalyzed [3 + 2] Annulation Reaction of Exocyclic Sulfonyl Enamides for the Synthesis of N,O-Spiroketal and Spiroketal – Chem. Eur. J. 2024, e202401062. [Cited by: 3 articles]

Insights into Stereoselectivity Switch in a Michael Addition-Initiated Tandem Mannich Cyclizations and Their Extension from Enamines to Vinyl Ethers – J. Am. Chem. Soc. 2023, 145, 15553–15564. [Cited by: 12 articles]

Catalytic [2+2+2] Tandem Cyclization with Alkyl Substituted Methylene Malonate Enabling Concise Total Synthesis of Four Malagasy Alkaloids – CCS Chem., 2023, 5, 124-132. [Cited by: 8 articles]

Allenamide-Initiated Cascade [2+2+2] Annulation Enabling the Divergent Total Synthesis of (-)-Deoxoapodine, (-)-Kopsifoline D and (±)-Melotenine A – Angew. Chem. Int. Ed., 2022, 61, e202207360. [Cited by: 15 articles]

Rapid Construction of Enantioenriched Benzofurochromanes by SaBOX/Copper(II) Catalyzed Enantioselective [3 + 2] Annulation of Îł-Chromenes with Quinones – Org. Lett., 2022, 24, 5525-5529. [Cited by: 10 articles]

Nida Ambreen | Organic Synthetic | Best Researcher Award

Assoc Prof Dr. Nida Ambreen | Organic Synthetic | Best Researcher Award

Assoc Prof Dr. Nida Ambreen, Department of Chemistry Abdul Wali Khan University Mardan, Pakistan

đŸ‘©â€đŸ”Ź Professor Nida Ambreen, a dynamic chemist, earned her split Ph.D. from Oxford and HEJRIC, University of Karachi. She’s taught at Federal Urdu University and mentored scholars. With international scholarships, she conducted pioneering postdoctoral research in the UK, Turkey, and France. Ambreen’s roles include Senior Lecturer at Cardiff University and Principal at Abdul Wali Khan University. She’s garnered four Research Productivity awards from Pakistan’s Ministry of Science. Her current endeavors focus on synthesizing bioactive molecules, nanochemistry, and exploring natural dyes’ applications. Passionate about green chemistry, she blends innovation with a commitment to scientific advancement. đŸŒ±

Publication Profile:

Google Scholar

Education:

Dr. Nida Ambreen began her academic journey with a Master’s degree in organic chemistry, which she completed in 2002, earning a scholarship for her MS leading to a PhD at the HEJ Research Institute of Chemistry, International Center for Chemical and Biological Sciences, University of Karachi. Subsequently, she pursued a split Ph.D. in Organic Synthesis from the Chemistry Research Laboratories at Oxford University and the HEJ Research Institute of Chemistry (HEJRIC), completing her doctoral studies in 2010.

Experience:

Dr. Nida Ambreen has a rich and diverse professional background. She started her career as an assistant professor in the Department of Chemistry at the Federal Urdu University of Arts, Science, and Technology, Karachi. She then transitioned to a Postdoctoral Research position as a Senior Lecturer in Clinical Data Science and Honorary Consultant in Cardiology at the School of Chemistry, Cardiff University, in 2012. Following this, she secured the position of Associate Professor in the Department of Chemistry at Abdul Wali Khan University Mardan in 2016. Additionally, she served as the Principal at University College for Women, Abdul Wali Khan University Mardan, from 2016 to 2017. Prior to this, she worked as an assistant professor and head of the Department of Environmental Sciences at Sardar Bahadur Khan Women University, Quetta, Balochistan.

Academic Achievements:

Dr. Nida Ambreen’s academic achievements are commendable. She received international scholarships for postdoctoral research at prestigious institutions such as Cardiff University, UK, Akdeniz University, Turkey, and the University of Tours, France. Furthermore, her research has been recognized with four Research Productivity awards from the Ministry of Science and Technology, Pakistan, spanning the period from 2010 to 2013. Her research interests encompass organic synthesis, nanochemistry, microreactor methodologies, and the synthesis and applications of natural dyes and nanoparticles, particularly focusing on their medicinal importance and wash fastness.

 

Research Focus:

🔬 Professor Nida Ambreen’s research focus primarily revolves around medicinal chemistry, with a specialization in the design and synthesis of bioactive compounds. She has contributed significantly to the development of novel pharmaceutical agents targeting various diseases, including anti-inflammatory, antimicrobial, and anticancer agents. Ambreen’s expertise extends to the synthesis of Schiff bases and other organic compounds, as well as the evaluation of their biological activities through in vitro and in silico studies. Additionally, she explores innovative synthetic methodologies such as ultrasound-assisted synthesis and high-temperature synthesis using flow chemistry. Ambreen’s dedication to advancing medicinal science is evident in her diverse range of publications. đŸŒ±

Publication Top Notes:

  1. 3-Formylchromones: potential antiinflammatory agents 📚 Cited by 139, 2010
  2. Schiff bases of 3-formylchromone as thymidine phosphorylase inhibitors 📚 Cited by 127, 2009
  3. 1, 3, 4-Oxadiazole-2 (3H)-thione and its analogues: A new class of non-competitive nucleotide pyrophosphatases/phosphodiesterases 1 inhibitors 📚 Cited by 72, 2009
  4. Evaluation of bisindole as potent ÎČ-glucuronidase inhibitors: Synthesis and in silico based studies📚 Cited by 54, 2014
  5. Synthesis of benzophenonehydrazone Schiff bases and their in vitro antiglycating activities📚 Cited by 52, 2013
  6. Phenoxyacetohydrazide Schiff bases: ÎČ-Glucuronidase inhibitors 📚 Cited by 49, 2014
  7. Schiff bases of 3-formylchromones as antibacterial, antifungal, and phytotoxic agents (Supplementry Table) 📚 Cited by 48, 2009
  8. Oxindole derivatives: Synthesis and antiglycation activity 📚 Cited by 47, 2013
  9. 2, 4, 6-Trichlorophenylhydrazine Schiff bases as DPPH radical and super oxide anion scavengers 📚 Cited by 47, 2012
  10. Curcumin and its derivatives: Moderate inhibitors of acetylcholinesterase, butyrylcholinesterase and trypsin📚 Cited by 41, 2012