Ms Zsuzsanna Szalai | Organophosphorus chemistry | Best Researcher Award |

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Ms. Zsuzsanna Szalai | Organophosphorus chemistry | Best Researcher Award |

Budapest University of Technology and Economics,Hungary

Professional Profiles:

SCOPUS

ORCID

GOOGLE SCHOLAR

👨‍🎓 Bio Summary:

Ms. Zsuzsanna Szalai, born on October 22, 1997, in Budapest, Hungary, is a dedicated researcher specializing in pharmaceutical and synthetic chemistry. Her passion for innovation in green synthesis and bioactive compound development has marked her as a rising star in chemical and pharmaceutical engineering. Based in Budapest, she is committed to advancing sustainable solutions in modern chemistry.

🎓 Educational Background:

Zsuzsanna holds a BSc in Chemical Engineering (2016–2020) and an MSc in Pharmaceutical Chemical Engineering (2020–2022) from the Budapest University of Technology and Economics, where she specialized in pharmaceutical sciences. Currently, she is pursuing a Ph.D. in Chemical, Bio-, and Environmental Engineering at the same institution’s renowned George Oláh PhD School, emphasizing cutting-edge research in chemical synthesis and environmental sustainability.

🔍 Research Focus:

Her research centers on the development of greener synthetic methodologies, particularly in hydroxybisphosphonate and phosphonate derivatives. She also investigates their bioactivities, including cytotoxic and cytostatic effects, contributing to advancements in sustainable pharmaceutical development.

🏆 Honors & Awards:

Zsuzsanna has earned multiple prestigious accolades, including the Chinoin Best Thesis Award (2022) and the Excellent Student of the Faculty Award (2021). Her academic journey is further distinguished by competitive scholarships such as the Gedeon Richter Excellence PhD Scholarship and the Doctoral Excellence Fellowship, which recognize her exceptional contributions to the field.

💼 Professional Experience:

With a strong foundation in the pharmaceutical industry, she has completed professional practices at Gedeon Richter Plc. and Egis Pharmaceuticals Plc., gaining hands-on experience in stability testing and injection manufacturing. Additionally, her role as a demonstrator at the Budapest University of Technology and Economics allowed her to teach and mentor students in organic chemistry laboratory practices.

📚 Top Noted Publications :

Title: Tetraalkyl Hydroxymethylene-bisphosphonate and Dialkyl 1-Diphenylphosphinoyl-1-hydroxy-ethylphosphonate Derivatives by the Pudovik Reaction and Their Rearranged Products
Authors: Z. Szalai, G. Keglevich
Journal: Molecules
Volume: 26 (24), Article 7575
Citations: 5
Year of Publication: 2021

Title: Greener Synthesis of Zoledronic Acid from Imidazol-1-yl-acetic Acid and P-reagents Using Diethyl Carbonate as the Solvent Component
Authors: A. Grün, Z. Szalai, G. Keglevich
Journal: Latvian Org Chem
Volume: 18 (1), Pages 8–12
Citations: 3
Year of Publication: 2021

Title: A Study of the Bisphosphonic Derivatives from the Pudovik Reaction of Dialkyl α-Oxophosphonates and >P(O)H Reagents: X-ray Structure and Bioactivity
Authors: Z. Szalai, B. Tóth, R. O. Szabó, S. Bősze, K. Karaghiosoff, M. Czugler, et al.
Journal: Molecules
Volume: 28 (16), Article 6037
Citations: 1
Year of Publication: 2023

Title: Organocatalytic Reactions in Water
Authors: B. Banerjee, A. Priya, Z. Szalai, A. Sharma, M. Kaur, A. Singh, G. Keglevich
Book Chapter: Organic Transformations in Water: Principles and Applications
Pages: 269–290
Citations: Not available
Year of Publication: 2025

Title: Unexpected Reaction of Dialkyl α-Hydroxy-benzylphosphonates with Dialkyl Phosphites and a Few Related Reactions
Authors: Z. Szalai, P. Ábrányi-Balogh, G. Keglevich
Journal: The Journal of Organic Chemistry
Citations: Not available
Year of Publication: 2024

Conclusion:

Zsuzsanna Szalai is an exceptionally strong candidate for the Best Researcher Award. Her prolific publication record, industry-relevant research, and academic accolades make her stand out among peers at her career stage. Addressing the outlined areas for improvement, such as enhancing international collaboration and leadership experience, would further solidify her candidacy for such awards in the future. Her contributions, particularly to green synthesis and bioactive compound development, align well with contemporary research priorities.

Assist. Prof. Dr Jozsef Schindler | Phosphorus chemistry | Best Researcher Award |

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Assist. Prof. Dr Jozsef Schindler | Phosphorus chemistry | Best Researcher Award |

Budapest University of Technology and Economics,Hungary

Professional Profiles:

SCOPUS

👨‍🎓 Bio Summary:

Dr. József Schindler is an Assistant Professor and a chemical engineer based in Hungary, known for his extensive work in pharmaceutical and chemical engineering, with a focus on chirality, optical resolution, and enantiomeric separation. His expertise spans academic research and industry leadership, particularly in the areas of pharmaceutical research and innovative brewing technologies.

🎓 Educational Background:

Dr. Schindler obtained his degree in Chemical Engineering from the Budapest University of Technology and Economics (BUTE) in 2001. He continued his academic journey by completing a Doctoral degree at the György Oláh Doctoral School at BUTE, where he further honed his skills in research and development.

🔍 Research Focus:

Dr. Schindler’s research centers on chemical and pharmaceutical sciences, specifically in the resolution of enantiomers, chirality, and asymmetric synthesis. His work also explores innovative methods in pharmaceutical production and the development of new technologies such as capsule brewing machines. These contributions have broad applications in both academia and industry, with a significant focus on enhancing chemical processes for more efficient and sustainable production.

🏆 Honors & Awards:

Dr. Schindler’s contributions to his field have been recognized with prestigious awards, including the Tibor Máthé Prize in 2002 and 2004, as well as the József Varga Prize in 2006. These accolades highlight his exceptional academic and research achievements, underscoring his impact on both chemical engineering and pharmaceutical sciences.

💼 Professional Experience:

Dr. Schindler has a varied and rich professional background. He started as a research associate at BUTE from 2006 to 2008 and subsequently led pharmaceutical projects at Bioblocks Ltd. between 2008 and 2016. From 2016 onward, he became the Managing Director of Synthesis Brewing Ltd., where he has taken on roles as technological and economic director, and head brewer. He has also contributed to innovative projects such as the creation of a container brewery (2018-2020) and the development of a capsule brewing machine (2021-2022). He currently serves as an Assistant Professor at BUTE since 2022.

📚 Top Noted Publications :

Book Chapter

Title: Physical Separations: Behavior of Structurally Similar Molecules in the Resolution Processes

Authors: Pálovics, E., Schindler, J., Faigl, F., Fogassy, E.

Citations: 10

Year of Publication: 2012

Source: Comprehensive Chirality, 8, pp. 91–95

 

Article

Title: The influence of molecular structure and crystallization time on the efficiency of diastereoisomeric salt forming resolutions

Authors: Pálovics, E., Schindler, J., Faigl, F., Fogassy, E.

Citations: 12

Year of Publication: 2010

Source: Tetrahedron Asymmetry, 21(19), pp. 2429–2434

 

Article

Title: A practical and efficient method for the resolution of 3-phospholene 1-oxides via coordination complex formation

Authors: Ujj, V., Bagi, P., Schindler, J., Fogassy, E., Keglevich, G.

Citations: 26

Year of Publication: 2010

Source: Chirality, 22(7), pp. 699–705

 

Article

Title: Separation of non-racemic mixtures of enantiomers: An essential part of optical resolution

Authors: Faigl, F., Fogassy, E., Nógrádi, M., Pálovics, E., Schindler, J.

Citations: 48

Year of Publication: 2010

Source: Organic and Biomolecular Chemistry, 8(5), pp. 947–959

 

Article

Title: Optical resolution of 1-(1-naphthyl)ethylamine by its dicarboxylic acid derivatives: Structural features of the oxalic acid derivative diastereomeric salt pair

Authors: Bereczki, L., Bombicz, P., Bálint, J., Schindler, J., Fogassy, E., Marthi, K.

Citations: 13

Year of Publication: 2009

Source: Chirality, 21(3), pp. 331–338

Conclusion:

József Schindler is a highly skilled and accomplished researcher whose work in chiral chemistry and pharmaceutical research has had significant academic and industrial impact. He possesses strong leadership qualities demonstrated through his entrepreneurial ventures and successful management of research projects. While Schindler is well-recognized in his field, opportunities for enhancing his international profile and interdisciplinary collaborations could amplify his research contributions. Based on his innovative work, leadership experience, and scholarly recognition, Schindler is a strong candidate for the Best Researcher Award with a few opportunities to elevate his global impact and visibility.ground, relevant research contributions, and work on global issues such as sustainable development position him well for recognition. With improvements in broadening his research dissemination and emphasizing practical outcomes, his work could have an even greater impact in both the academic and policy-making arenas.