Prof. Mohammad Gholinejad | Organic Chemistry | Best Researcher Award

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Prof. Mohammad Gholinejad | Organic Chemistry | Best Researcher Award 

Prof. Mohammad Gholinejad | Organic Chemistry | Associate Professor of Chemistry at IASBS, Iran

Dr. Mohammad Gholinejad is an Associate Professor of Organic Chemistry at the Institute for Advanced Studies in Basic Sciences (IASBS), Iran, he specializes in catalysis, organic synthesis, and nanomaterials. He completed his Ph.D. from Shiraz University under the supervision of Prof. Habib Firouzabadi, focusing on palladium, copper, iron, and silver nanoparticles in carbon-carbon and carbon-heteroatom bond formation. He undertook a sabbatical at the University of Alicante, Spain, with Prof. Carmen Najera, working on phosphane-free Suzuki-Miyaura coupling. With an h-index of 36 and over 3,400 citations, Dr. Gholinejad has significantly contributed to the field of homogeneous and heterogeneous catalysis. His expertise extends to TGA, GC, NMR, and XPS techniques. He actively teaches advanced organic chemistry and heterocyclic chemistry, mentoring numerous students. His work bridges fundamental research and practical applications, making him a key figure in modern catalysis.

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Summary of Suitability for Award:

Dr. Mohammad Gholinejad is a highly accomplished researcher in the field of organic chemistry, specializing in catalysis, nanoparticle applications, and green chemistry. With an h-index of 36 and over 3,400 citations, his research contributions have significantly impacted the scientific community. His expertise in palladium, copper, iron, and silver nanoparticles for carbon-carbon and carbon-heteroatom bond formation reactions has led to innovative methodologies that are both efficient and environmentally friendly. He has held a prestigious sabbatical position at the University of Alicante, Spain, and currently serves as an Associate Professor at the Institute for Advanced Studies in Basic Sciences (IASBS). His extensive publication record, leadership in advanced organic chemistry courses, and hands-on experience with instrumental techniques further highlight his research excellence. Given his outstanding research output, impact on organic synthesis, and contributions to sustainable chemistry, Dr. Gholinejad is a highly suitable candidate for the “Best Researcher Award.” His work exemplifies innovation, academic excellence, and real-world application, making him a strong contender for this recognition.

🎓Education:

Dr. Mohammad Gholinejad obtained his Ph.D. in Organic Chemistry from Shiraz University, Iran (2008-2012), where he investigated carbon-carbon and carbon-heteroatom bond formation using metal nanoparticles. His research introduced efficient catalytic systems for environmentally friendly organic transformations. His M.Sc. in Organic Chemistry (2006-2008) at Shiraz University focused on phosphinite ligands in organic synthesis. He earned his B.Sc. in Applied Chemistry from the University of Tabriz (2002-2006). In 2010, Dr. Gholinejad pursued a sabbatical at the University of Alicante, Spain, under Prof. Carmen Najera, working on phosphane-free Suzuki-Miyaura coupling. His academic journey has shaped his expertise in catalytic systems, green chemistry, and ligand design. His research integrates experimental and theoretical chemistry, leading to numerous high-impact publications. His strong analytical background and mastery of spectroscopic techniques have enhanced his contributions to organic synthesis and catalysis, making him a leading researcher in the field.

🏢Work Experience:

Dr. Mohammad Gholinejad is an Associate Professor at IASBS, Iran, where he has been engaged in research and teaching for over a decade. His teaching portfolio includes Advanced Organic Chemistry (Structure and Mechanisms), Organic Reactions and Synthesis, Heterocyclic Chemistry, and New Discussions in Organic Chemistry. His research focuses on designing novel catalytic systems using palladium, copper, and iron nanoparticles for sustainable organic transformations. He has extensive expertise in TGA, GC, NMR, and XPS, essential for analyzing catalytic reactions. During his sabbatical at the University of Alicante, Spain, he collaborated with Prof. Carmen Najera on phosphane-free Suzuki-Miyaura coupling in aqueous media. His work has led to numerous high-impact publications in prestigious journals. He actively supervises M.Sc. and Ph.D. students, contributing to the development of young researchers. His role at IASBS has been instrumental in advancing research on green and heterogeneous catalysis.

🏅Awards: 

Dr. Mohammad Gholinejad has received numerous prestigious awards and honors in recognition of his outstanding contributions to the field of organic chemistry. His work in catalysis and green chemistry has been widely acknowledged, earning him accolades from both national and international scientific communities. He has been recognized for his high-impact publications in reputed journals, reflecting his significant influence in the domain of sustainable chemical methodologies. His sabbatical at the University of Alicante, Spain, is a testament to his global research collaborations and expertise. Additionally, he has been honored with research grants and funding awards, enabling him to advance studies in nanoparticle catalysis and environmentally friendly synthetic processes. As an Associate Professor at the Institute for Advanced Studies in Basic Sciences (IASBS), he has received institutional recognition for his exemplary research, mentorship, and contributions to academic excellence. His achievements establish him as a leading researcher in organic synthesis and catalysis.

🔬Research Focus:

Dr. Mohammad Gholinejad’s research primarily focuses on the development of novel catalytic systems for organic transformations, particularly using palladium, copper, iron, and silver nanoparticles. His work has significantly advanced carbon-carbon and carbon-heteroatom bond formation reactions, leading to more efficient and environmentally sustainable chemical processes. By integrating nanotechnology with catalysis, he has contributed to the design of innovative, recyclable catalytic systems that minimize waste generation and reduce reliance on hazardous reagents. His expertise extends to green chemistry, where he develops eco-friendly methodologies for organic synthesis, emphasizing the use of non-toxic solvents, reusable catalysts, and sustainable reaction conditions. His pioneering research in heterogeneous catalysis has implications for pharmaceuticals, materials science, and industrial chemistry. Additionally, his work on functionalized nanomaterials has potential applications in energy storage and biomedical fields. Through high-impact publications and global collaborations, Dr. Gholinejad continues to drive advancements in synthetic methodologies, enhancing the efficiency and sustainability of modern chemistry.

Publication Top Notes:

Title: Magnetite (Fe₃O₄) Nanoparticles‐Catalyzed Sonogashira–Hagihara Reactions in Ethylene Glycol under Ligand‐Free Conditions
Authors: H. Firouzabadi, N. Iranpoor, M. Gholinejad, J. Hoseini
Citations: 174
Year: 2011

Title: One‐Pot Thioetherification of Aryl Halides Using Thiourea and Alkyl Bromides Catalyzed by Copper (I) Iodide Free from Foul‐Smelling Thiols in Wet Polyethylene Glycol (PEG 200)
Citations: 164

Title: Highly Efficient Three-Component Coupling Reaction Catalyzed by Gold Nanoparticles Supported on Periodic Mesoporous Organosilica with Ionic Liquid Framework
Citations: 154

Title: Palladium Nanoparticles Supported on Agarose as Efficient Catalyst and Bioorganic Ligand for C–C Bond Formation via Solventless Mizoroki–Heck Reaction and Sonogashira–Hagihara Reaction
Citations: 107

Title: Synthesis and Characterization of Magnetic Copper Ferrite Nanoparticles and Their Catalytic Performance in One-Pot Odorless Carbon-Sulfur Bond Formation Reactions
Citations: 98

Title: 2-Aminophenyl Diphenylphosphinite as a New Ligand for Heterogeneous Palladium-Catalyzed Heck–Mizoroki Reactions in Water in the Absence of Any Organic Co-Solvent
Citations: 93

Title: Copper Nanoparticles Supported on Agarose as a Bioorganic and Degradable Polymer for Multicomponent Click Synthesis of 1,2,3-Triazoles under Low Copper Loading in Water
Citations: 89

Title: Nitro Group Reduction and Suzuki Reaction Catalysed by Palladium Supported on Magnetic Nanoparticles Modified with Carbon Quantum Dots Generated from Glycerol and Urea
Citations: 83

Title: Copper Nanoparticles Supported on Starch Microparticles as a Degradable Heterogeneous Catalyst for Three-Component Coupling Synthesis of Propargylamines
Citations: 83

Title: Palladium Nanoparticles Supported on Agarose-Functionalized Magnetic Nanoparticles of Fe₃O₄ as a Recyclable Catalyst for C–C Bond Formation via Suzuki–Miyaura, Heck–Mizoroki Reactions
Citations: 77

Title: Recyclable Palladium-Catalyzed Sonogashira–Hagihara Coupling of Aryl Halides Using 2-Aminophenyl Diphenylphosphinite Ligand in Neat Water under Copper-Free Condition
Citations: 77

György Keglevich | Green Chemistry | Green Chemistry Award

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Prof Dr. György Keglevich | Green Chemistry | Green Chemistry Award

 Professor at Dept of Organic Chemistry and Technology, Budapest University of Technology and Economics, Hungary

György Keglevich is a distinguished chemist specializing in organophosphorus chemistry. He is a Full Professor at the Department of Organic Chemistry and Technology at Budapest University of Technology and Economics. With a career spanning several decades, Keglevich has made significant contributions to the field through his research, publications, and mentoring of future scientists. His work encompasses a wide range of topics in chemical synthesis, green chemistry, and practical applications of his research.

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György Keglevich is a prominent researcher affiliated with the Budapest University of Technology and Economics in Budapest, Hungary. He has made significant contributions to the field, with a notable citation count of 9,463 across 590 documents. His h-index is 43, reflecting the impact and influence of his work in the academic community.

Education

Keglevich graduated from the Technical University of Budapest (TUB) in 1981 with a degree in chemical engineering. He obtained his PhD and Doctor of Chemical Science degrees in organophosphorus chemistry and earned his “Dr Habil.” degree in 1995. His early academic career included research at Duke University under the guidance of Professor Louis D. Quin.

Research Focus

Keglevich’s research primarily revolves around organophosphorus chemistry, including the development of P-heterocyclic compounds, ring enlargement of five-membered P-heterocycles, and the synthesis of bridged P-heterocycles. His work also explores the reactivity of aromatic phospholes, phosphine-transition metal complexes, and green chemistry practices such as microwave-assisted reactions and the use of ionic liquids.

Professional Journey

Keglevich began his career as a research employee at the Chinoin Pharmaceutical Factory before joining TUB’s Department of Organic Chemical Technology as an Assistant Professor in 1982. He was promoted to Associate Professor in 1993 and became a Full Professor in 1996. He has held leadership roles within his department, including serving as Head from 1999 to 2021. He has also been a Visiting Associate Professor at the University of Massachusetts on multiple occasions.

Honors & Awards

Keglevich has received several prestigious awards, including the Award of the Hungarian Academy of Sciences in 2004. In 2021, he was honored with the state decoration of Knight-Cross for Hungarian Order, and in 2022, he received the József Palatine Prize from Budapest University of Technology. These accolades recognize his significant contributions to the field of chemistry.

Publications Noted & Contributions

Keglevich has made substantial contributions through his publications, which include around 651 papers, 51 book chapters, and two books. His research is noted for advancements in the Hirao reaction, catalyst-free P–C coupling reactions, and microwave-assisted direct esterification. His contributions have been influential in developing new methods and applications in chemistry.

N-Functionalization of β-Aminophosphonates: Cytotoxic Effects of the New Derivatives

Journal: Organic & Biomolecular Chemistry

Year: 2024

DOI: 10.1039/D4OB00243A

Contributors: György Keglevich, Petra Regina Varga, Emőke Dinnyési, Zsuzsanna Szalai, Szilvia Bősze, Oláhné Szabó Rita, László Drahos, Konstantin Karaghiosoff

Synthesis of Mesylated and Tosylated α-Hydroxy-Benzylphosphonates; Their Reactivity and Cytostatic Activity

Journal: ACS Omega

Date: July 16, 2024

DOI: 10.1021/acsomega.4c04382

Contributors: Zsuzsanna Szalai, Márton Debrei, Péter Ábrányi-Balogh, Szilvia Bősze, Rita Oláhné Szabó, Konstantin Karaghiosoff, László Drahos, György Keglevich

Microwave-Assisted, Ionic Liquid-Catalyzed Aminolysis and Alcoholysis of Phosphinic Derivatives: The Interconversion of Phosphinates and Phosphinic Amides

Journal: Green Chemistry

Year: 2023

DOI: 10.1039/D3GC02711B

Contributors: György Keglevich, Nikoletta Harsági, Sarolta Szilágyi

New N-Acyl- as well as N-Phosphonoylmethyl- and N-Phosphinoylmethyl-α-Amino-Benzylphosphonates by Acylation and a Tandem Kabachnik–Fields Protocol

Journal: Organic & Biomolecular Chemistry

Year: 2023

DOI: 10.1039/D3OB00010A

Contributors: Petra Regina Varga, Konstantin Karaghiosoff, Éva Viktória Sári, András Simon, László Hegedűs, László Drahos, György Keglevich

Synthesis and Anticancer Activity of Phosphinoylated and Phosphonoylated N-Heterocycles Obtained by the Microwave-Assisted Palladium Acetate-Catalyzed Hirao Reaction

Journal: Chemistry – A European Journal

Date: December 6, 2023

DOI: 10.1002/chem.202302465

Contributors: Bianka Huszár, Renáta Szolga, Szilvia Bősze, Rita Oláhné Szabó, András Simon, Konstantin Karaghiosoff, Mátyás Czugler, László Drahos, György Keglevich

Research Timeline

Keglevich’s research career began in the early 1980s with a focus on chemical synthesis and organophosphorus chemistry. Over the decades, he has developed and refined methodologies in green chemistry and practical applications. His research timeline includes significant milestones such as his promotion to Full Professor in 1996 and his ongoing work in innovative chemistry practices.

Collaborations and Projects

Keglevich has collaborated on numerous projects related to organophosphorus chemistry and green chemistry. His industrial projects include the synthesis of pharmaceutical intermediates and products, which are reflected in his three patents. He has also engaged in various academic collaborations, contributing to advancements in both theoretical and practical aspects of chemistry.

György Keglevich has authored or co-authored approximately 651 papers, including 51 book chapters and two books. His research output has earned him an h-index of 48, reflecting his significant impact in the field of chemistry. His publications are highly regarded, indicating a strong influence in organophosphorus and green chemistry research.

Strengths of the Green Chemistry Award for Prof. Dr. György Keglevich

  1. Significant Contributions to Green Chemistry: Prof. Keglevich’s research emphasizes green chemistry practices, including microwave-assisted reactions and the use of ionic liquids. These contributions align well with the principles of green chemistry, aiming to make chemical processes more sustainable and environmentally friendly.
  2. Innovative Methodologies: His work on catalyst-free P–C coupling reactions, microwave-assisted esterification, and ionic liquid-catalyzed reactions demonstrates a commitment to developing new, more efficient, and eco-friendly chemical processes.
  3. Extensive Publication Record: With over 651 papers and numerous contributions to high-impact journals, Prof. Keglevich’s extensive publication record showcases his deep engagement with and impact on the field of green chemistry.
  4. High Citation Count: An h-index of 48 and a citation count of 9,463 indicate that his research is highly influential and well-regarded within the academic community. This metric underscores the relevance and importance of his work in advancing green chemistry.
  5. Recognition and Awards: The numerous awards and honors, including the Knight-Cross for Hungarian Order and the József Palatine Prize, affirm his significant impact and contributions to chemistry, reinforcing his candidacy for the Green Chemistry Award.

Areas for Improvement

  1. Broader Impact on Industry: While Prof. Keglevich’s research is highly influential academically, showcasing a broader impact on industrial applications could strengthen his case for the Green Chemistry Award. Highlighting how his methodologies have been adopted or commercialized would be beneficial.
  2. Integration with Emerging Green Technologies: There could be a more explicit connection to emerging green technologies such as renewable energy solutions or advanced recycling methods. Emphasizing how his work integrates with or contributes to these areas might enhance his profile.
  3. Interdisciplinary Collaborations: Expanding collaborations beyond organophosphorus chemistry to include other disciplines such as materials science or environmental engineering could demonstrate a more comprehensive approach to solving green chemistry challenges.
  4. Public Engagement and Outreach: Increasing efforts in public engagement, science communication, and education could further highlight the societal impact of his research. Showcasing initiatives that aim to educate and inspire the next generation of chemists could add value.
  5. Future Research Directions: Outlining specific future research directions and how they align with the evolving goals of green chemistry could provide a forward-looking perspective. This might include exploring new green solvents, reaction conditions, or sustainable practices.

Conclusion

Prof. Dr. György Keglevich is a leading figure in green chemistry with a distinguished record of innovative research, extensive publications, and significant contributions to sustainable chemical practices. His work on eco-friendly methodologies and high-impact research underscores his qualifications for the Green Chemistry Award. Addressing areas for improvement, such as demonstrating broader industrial impact and engaging with emerging green technologies, could further strengthen his candidacy. Overall, his accomplishments and recognition in the field make him a strong contender for the award, reflecting his dedication to advancing green chemistry and its practical applications.