Best Paper Award

Abdulmajeed Alayyaf
King Saud University

Abdulmajeed Alayyaf
Affiliation	King Saud University
Country	Saudi Arabia
Scopus ID	58306966000
Documents	28
Citations	210
h-index	9
Subject Area	Inorganic molecular development
Event	International Chemistry Scientist Awards
ORCID	0009-0000-3377-4115

The Best Paper Award recognizes the scholarly and scientific contributions of Abdulmajeed Alayyaf in the field of inorganic molecular development and related chemical sciences. The recognition is associated with research productivity, publication quality, citation performance, and scientific engagement within the broader international chemistry research community. The award profile highlights academic contributions documented through indexed publications and citation databases.[1]

Contents

Abstract
Keywords
Introduction
Research Profile
Research Contributions
Publications
Research Impact
Award Suitability
Conclusion
External Links
References

Abstract

Abdulmajeed Alayyaf has contributed to the advancement of inorganic molecular development through scientific publications indexed in international academic databases. Research outputs associated with this profile include studies in chemical synthesis, molecular characterization, and applied inorganic systems. Citation metrics and publication records indicate sustained academic participation and measurable research visibility within the field of chemistry.[1][2]

Keywords

Best Paper Award, Abdulmajeed Alayyaf, inorganic molecular development, chemistry research, Scopus author profile, King Saud University, chemical sciences, molecular chemistry, academic recognition, research publications

Introduction

The International Chemistry Scientist Awards recognize researchers demonstrating scientific productivity and academic contributions in chemistry-related disciplines. Abdulmajeed Alayyaf has been identified as a contributor within inorganic molecular development, with research activity documented through indexed scholarly outputs and citation tracking systems.[1]

Research Profile

Abdulmajeed Alayyaf is affiliated with King Saud University in Saudi Arabia and has established a research profile centered on inorganic molecular development and associated chemical systems. Indexed academic metrics indicate a publication record comprising 28 documents with more than 200 citations and an h-index of 9.[1]

Institutional affiliation with King Saud University.
Research specialization in inorganic molecular development.

Research Contributions

The research contributions associated with Abdulmajeed Alayyaf involve participation in scientific investigations related to molecular systems, inorganic chemistry methodologies, and laboratory-based analytical development. These studies contribute to broader chemical science applications through experimental design and material characterization approaches.[2]

Publications

The publication record associated with the researcher includes scientific articles indexed through Scopus and related academic databases. Publication themes are connected to inorganic chemistry, molecular systems, and chemical development studies.[1]

Research studies involving inorganic molecular systems and chemical analysis methodologies.
Peer-reviewed chemistry publications indexed through international scholarly databases.

Research Impact

Research impact metrics associated with Abdulmajeed Alayyaf indicate measurable scholarly visibility through citations, publication indexing, and academic referencing. Citation activity reflects the integration of published work into broader scientific discussions and ongoing chemistry-related investigations.[1]

Award Suitability

The Best Paper Award evaluation framework emphasizes publication quality, citation relevance, academic contribution, and subject-specific impact. Abdulmajeed Alayyaf’s documented academic profile aligns with these criteria through indexed publication activity, measurable citations, and sustained engagement in inorganic molecular development research.[3]

Conclusion

Abdulmajeed Alayyaf’s academic profile demonstrates recognized participation in inorganic molecular development and chemistry-related research. Indexed publications, citation records, and institutional affiliation collectively indicate scholarly engagement and measurable research contribution. The Best Paper Award recognition framework reflects these academic indicators through evaluation of publication impact, scientific quality, and research dissemination.[1][3]

External Links

References

Elsevier. (n.d.). Scopus author details: Abdulmajeed Alayyaf, Author ID 58306966000. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=58306966000
ORCID. (n.d.). ORCID profile of Abdulmajeed Alayyaf.
https://orcid.org/0009-0000-3377-4115
Al‐Jassas, R. M., Islam, M. S., Al‐Majid, A. M., Nafie, M. S., & Haukka, M. Synthesis and SARs study of novel spiro‐oxindoles as potent antiproliferative agents with CDK‐2 inhibitory activities.
https://pubmed.ncbi.nlm.nih.gov/37253118/
Saidani, A., Boudraa, R., Fendi, K., Benouadah, L., Benabbas, A., & Djermoune, A. Effect of calcination temperature on the photocatalytic activity of precipitated ZnO nanoparticles for the degradation of rhodamine B under different light sources.
https://www.mdpi.com/2073-4441/17/1/32

Dr. Sae Hume Park | Chemical Synthesis | Green Chemistry Award

Senior Research Scientist | Korea Research Institute of Chemical Technology | South Korea

Dr. Sae Hume Park, a Senior Research Scientist at the Korea Research Institute of Chemical Technology (KRICT), is an accomplished organometallic and organic chemist with expertise spanning organometallic synthesis, catalysis, polymer chemistry, and sustainable material design. His research primarily focuses on developing environmentally sustainable chemical processes utilizing renewable resources such as CO₂ and bio-based feedstocks, integrating both homogeneous and heterogeneous catalytic systems for scalable industrial applications. Dr. Park has made significant contributions to hydrocarbon functionalization, polymer precursor synthesis, and hybrid materials for catalysis, achieving impactful advancements in sustainable and green chemistry. His earlier work includes the development of innovative C–H activation methodologies and catalytic transformations employing transition metals and main-group elements. With an extensive publication record in high-impact journals, his studies have influenced areas including green polymer synthesis, methane activation, and electrochemical catalysis. According to Google Scholar, Dr. Park has over 2,560 citations, an h-index of 16, and an i10-index of 17; while Scopus records 78 citations from 76 documents with an h-index of 4. His interdisciplinary research bridges fundamental chemistry and industrial sustainability, emphasizing catalytic efficiency, renewable carbon utilization, and polymer upcycling.

Featured Publications :

Kim, K., Kim, W., Yuk, J. S., Jeong, H., Jeon, H., Yoo, Y., Shin, J., & Park, S. H. (2024). Soybean oil derived-process oil prepared via recyclable organocatalysis for eco-friendly styrene-butadiene rubber composites. Green Chem., 26, 3732.

Jeong, H., Hong, S. J., Yuk, J. S., Lee, H., Koo, H., Park, S. H., & Shin, J. (2023). Renewable and degradable triblock copolymers produced via metal-free polymerizations. ACS Sustainable Chem. Eng., 11, 4871.

Gunsalus, N. J., Koppaka, A., Park, S. H., Bischof, S. M., Hashiguchi, B. G., & Periana, R. A. (2017). Homogeneous functionalization of methane. Chem. Rev., 117, 8521.

Koppaka, A., Park, S. H., Hashiguchi, B. G., Ess, D. H., & Periana, R. A. (2019). Selective C−H functionalization of methane and ethane by a molecular Sb(V) complex. Angew. Chem. Int. Ed., 58, 2241.

Ryu, J., Jung, N., Lim, D. H., Shin, D. Y., Park, S. H., Ham, H. C., Kim, H. J., Jang, J. H., & Yoo, S. J. (2014). P-modified and carbon-shell coated Co nanoparticles for efficient alkaline oxygen reduction catalysis. Chem. Commun., 50, 15940.

Abdulmajeed Alayyaf | Inorganic molecular development | Best Paper Award