Dr. Emmanuel Mintah Bonku | Green Chemistry | Sustainable Chemistry Award

Dr. Emmanuel Mintah Bonku | Green Chemistry | Sustainable Chemistry Award

Dr. Emmanuel Mintah Bonku , Shanghai Institute of Materia Medica, CAS , China

Emmanuel Mintah Bonku, PhD, is a dedicated postdoctoral researcher at the Shanghai Institute of Materia Medica, Chinese Academy of Sciences, specializing in green chemistry and sustainable drug development. With a Ph.D. in Medicinal Chemistry from the University of Chinese Academy of Sciences, his research focuses on synthetic methodologies for antiviral drugs, especially in emerging diseases like monkey pox. He developed a groundbreaking synthesis process for tecovirimat, which is undergoing registration in China. Emmanuel has also worked on the synthesis of cariprazine, benzimidazole compounds, and other pharmaceuticals. His achievements have earned him the Excellent International Graduate Award from the Chinese Academy of Sciences in 2024. Passionate about sustainability in the pharmaceutical sector, Emmanuel strives to inspire future generations of scientists with his innovative approach to drug development.

Professional Profile:

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Summary of Suitability for Award:

Emmanuel Mintah Bonku, PhD, is highly suitable for the “Sustainable Chemistry Award” based on his exceptional contributions to green and sustainable drug development, particularly in medicinal chemistry. His research focuses on the development of innovative and environmentally friendly synthetic methodologies, notably for antiviral and other life-saving drugs. He has demonstrated excellence in synthesizing antiviral drugs like tecovirimat for monkey pox, optimizing the production process for large-scale application with minimal environmental impact. Emmanuel Mintah Bonku has also worked on biotransformation techniques and green chemistry, striving to make pharmaceutical synthesis more sustainable. Emmanuel Mintah Bonku is an ideal candidate for the “Sustainable Chemistry Award” due to his groundbreaking work in green chemistry and sustainable pharmaceutical development. His innovative research and dedication to promoting sustainability in drug manufacturing make him a strong advocate for environmentally conscious chemistry practices.

🎓Education:

Emmanuel Mintah Bonku holds a Doctor of Philosophy (Ph.D.) in Medicinal Chemistry from the University of Chinese Academy of Sciences (2021-2024), focusing on green and sustainable drug development. He completed a Master of Engineering (M.Eg.) in Chemical Engineering and Technology from Wuhan University of Science and Technology (2018-2021), specializing in biotransformation and sustainable chemistry. Prior to that, he earned a Bachelor of Science (B.Sc.) in Environmental Science, with a focus on ethnobotany, from the University of Cape Coast, Ghana (2012-2017). In addition, Emmanuel holds a certificate in Information Communication and Technology (2012) from All Nations University College, Ghana. His academic background has equipped him with the technical expertise and interdisciplinary knowledge to make significant contributions to medicinal chemistry, particularly in the development of antiviral drugs and sustainable pharmaceutical processes.

🏢Work Experience:

Emmanuel Mintah Bonku is currently a postdoctoral researcher at the Shanghai Institute of Materia Medica, Chinese Academy of Sciences, specializing in sustainable drug development. During his doctoral research, he pioneered novel synthetic methodologies for antiviral drugs, contributing to the development of tecovirimat for monkeypox and cariprazine for schizophrenia. He has also worked extensively on the synthesis of benzimidazole compounds for antihypertensive and anthelmintic applications. In his earlier career, Emmanuel contributed to projects focused on biotransformation and sustainable chemistry while earning his Master’s degree at Wuhan University of Science and Technology. His experience spans academic research, guest reviewing for journals, and collaborative work with international experts in the field. Emmanuel’s role as a researcher involves advanced techniques in medicinal chemistry, drug synthesis, and process optimization, with an emphasis on green and sustainable practices.

🏅Awards: 

Emmanuel Mintah Bonku has been recognized for his outstanding contributions to medicinal chemistry, particularly in the synthesis of antiviral drugs. In 2024, he received the Excellent International Graduate Award from the Chinese Academy of Sciences in recognition of his innovative research on tecovirimat, a key antiviral drug for monkeypox. His achievements in sustainable drug development have positioned him as a leading figure in his field. Emmanuel has also contributed to various projects in the pharmaceutical industry and academia, promoting sustainability in drug development. His work has garnered attention and respect in the scientific community, and he continues to inspire others through his research, publications, and collaborations. As a guest reviewer for journals like Journal of Green Synthesis and Catalysis and Journal of Food Science, he is also recognized for his contributions to the scientific peer-review process. Emmanuel remains committed to advancing the field of green chemistry and pharmaceutical innovation.

🔬Research Focus:

Emmanuel Mintah Bonku’s research focuses on green and sustainable drug development, with a particular emphasis on the synthesis of antiviral drugs. His work is at the intersection of medicinal chemistry and sustainable chemistry, where he develops new synthetic methodologies for emerging infectious diseases, including monkeypox. Emmanuel pioneered a large-scale process for synthesizing tecovirimat, a critical antiviral drug, and has worked on the development of other pharmaceuticals like cariprazine for schizophrenia and benzimidazole compounds for antihypertensive and anthelmintic purposes. He is passionate about improving drug synthesis processes to make them more sustainable, focusing on minimizing environmental impact while maintaining high efficiency and effectiveness. His research also includes process optimization, such as using reactive distillation for drug synthesis. Emmanuel’s work aims to address current challenges in the pharmaceutical industry, particularly the need for greener, more efficient production methods for critical drugs in the global healthcare landscape.

Publication Top Notes:

1. Extraction of Essential Oil from Citrus reticulate Blanco Peel and Its Antibacterial Activity Against Cutibacterium acnes (Formerly Propionibacterium acnes)

Authors: HS Hou, EM Bonku, R Zhai, R Zeng, YL Hou, ZH Yang, C Quan

Year: 2019

Citations: 90

Journal: Heliyon 5(12)

2. An Alkali-Tolerant Carbonyl Reductase from Bacillus subtilis by Gene Mining: Identification and Application

Authors: W Luo, HJ Du, EM Bonku, YL Hou, LL Li, XQ Wang, ZH Yang

Year: 2019

Citations: 8

Journal: Catalysis Letters 149, 2973–2983

3. Extraction of Essential Oil from Citrus reticulate Blanco Peel and Its Antibacterial Activity Against Cutibacterium acnes (Formerly Propionibacterium acnes)

Authors: HS Hou, EM Bonku, R Zhai, R Zeng, YL Hou, ZH Yang, C Quan

Year: 2019

Citations: 7

Journal: Heliyon 5, E02

4. Facile Synthesis of Benzimidazoles via N-Arylamidoxime Cyclization

Authors: H Qin, A Odilov, EM Bonku, F Zhu, T Hu, H Liu, HA Aisa, J Shen

Year: 2022

Citations: 6

Journal: ACS Omega 7(49), 45678–45687

5. Efficient Large-Scale Process for Tecovirimat via Reactive Distillation for the Preparation of Cycloheptatriene

Authors: EM Bonku, H Qin, A Odilov, F Yang, X Xing, X Wang, SD Guma, J Shen

Year: 2023

Citations: 5

Journal: Organic Process Research & Development 27(11), 1984–1991

6. Synergistic Effect and Structure–Property of Bio-Based 1, 6-Hexanediol on Thermal, Mechanical, and Degradation Properties of Biopolymers

Authors: WMK Siegu, LDW Djouonkep, NBS Selabi, EM Bonku, Z Cheng, …

Year: 2023

Citations: 5

Journal: Journal of Polymers and the Environment 31(3), 1144–1159

7. Extraction of Essential Oil from Citrus reticulate

Authors: HS Hou, EM Bonku, R Zhai, R Zeng, YL Hou, ZH Yang, C Quan

Year: 2019

Citations: 5

Journal: Not listed

8. Establishment of a Propolis Ethanolic Extract Self-Microemulsifying Drug Delivery System and Its Antibacterial Activity

Authors: TC Wang, B Appiah, EM Bonku, ZH Yang, L Luo

Year: 2021

Citations: 4

Journal: Biocatalysis and Agricultural Biotechnology 31, 101905

9. Improved and Ligand-Free Copper-Catalyzed Cyclization for an Efficient Synthesis of Benzimidazoles from o-Bromoarylamine and Nitriles

Authors: EM Bonku, H Qin, A Odilov, S Abduahadi, SD Guma, F Yang, F Zhu, …

Year: 2024

Citations: 3

Journal: RSC Advances 14(10), 6906–6916

10. Impurity Study of Tecovirimat

Authors: EM Bonku, H Qin, A Odilov, S Abduahadi, SD Guma, F Yang, X Xing, …

Year: 2024

Citations: 1

Journal: Heliyon 10(9)

 

 

 

 

 

Ms. Nontobeko Simelane | Green Chemistry Award | Best Researcher Award

Ms. Nontobeko Simelane | Green Chemistry Award | Best Researcher Award

Ms. Nontobeko Simelane |University of KwaZulu Natal | South Africa

Nontobeko Precious Simelane is a driven PhD candidate in Chemistry at the University of KwaZulu Natal, Durban, with a strong background in Materials Science. Known for her dedication to academic excellence, she has experience mentoring students and working as a laboratory demonstrator. She completed her MSc in Industrial Physics with distinction and holds a BSc in Chemistry and an Honours degree in Chemical Technology, specializing in polymer material science. Nontobeko is particularly skilled in polymer synthesis and has contributed to impactful projects and reviews in biopolymer composites. Her work emphasizes sustainable material solutions, bridging scientific research and real-world applications. With multiple publications and conference presentations, she actively contributes to research on environmentally friendly materials, transparent wood, and pollutant-removing biopolymer composites.

Professional Profile:

Scopus

Summary of Suitability for Award:

Given her academic distinction, impactful research, and dedication to sustainable development, Nontobeko Precious Simelane is a highly suitable candidate for the Best Researcher Award. Her work not only contributes to scientific knowledge but also addresses environmental challenges, embodying a balance of innovation and responsibility essential for a leading researcher in today’s world.

🎓Education:

Nontobeko’s educational journey in science began with a BSc in Chemistry from the University of Pretoria in 2016, providing a strong foundation in analytical and applied chemistry. She then completed an Honours degree in Chemical Technology with a specialization in polymer material science in 2018, where she honed her skills in polymer synthesis and applications. Her MSc in Industrial Physics at Tshwane University of Technology, completed in 2022 with distinction, emphasized practical applications of physics in material sciences. Currently, Nontobeko is pursuing a PhD in Chemistry at the University of KwaZulu Natal, focusing on the development of engineered transparent wood for sustainable construction materials. This educational trajectory has equipped her with comprehensive knowledge in chemistry, materials science, and industrial applications, forming a solid background for her current research in sustainable materials.

🏢Work Experience:

Nontobeko has accumulated valuable experience in academia and research through roles such as Laboratory Demonstrator and Postgraduate Teaching Assistant. As a Laboratory Demonstrator at the University of KwaZulu Natal, she supervises first-year students, ensuring lab safety and understanding of core chemistry concepts. At Tshwane University of Technology, she served as a Postgraduate Teaching Assistant, conducting physics practicals for first-year students and providing insightful feedback to support their learning. Her research experience includes a Polymer Technology Internship at the National Research Foundation, where she synthesized and analyzed polymer composites, reporting on their thermal stability and mentoring two undergraduates. This combination of hands-on research and teaching experience has made Nontobeko skilled in mentoring, experimental design, and effective communication of complex scientific concepts.

🏅Awards:

Nontobeko’s academic and research excellence has been recognized with several awards. She graduated Cum Laude with her MSc in Industrial Physics from Tshwane University of Technology, reflecting her commitment to excellence with an average of 83%. As a top 15% performer in her faculty, she was inducted into the Golden Key International Honour Society, an acknowledgment of her dedication and hard work. Her research contributions have been showcased at notable events like the Postgraduate Research and Innovation Symposium at the University of KwaZulu Natal and the South African Institute of Physics conference, where she presented her work on biopolymer composites and sustainable wood materials. These honors underscore her commitment to impactful research in sustainable materials and her role as a promising young scientist in the field.

🔬Research Focus:

Nontobeko’s research centers on sustainable materials, with a focus on developing environmentally friendly solutions for industry and everyday use. Her PhD research investigates engineered transparent wood as a sustainable alternative to conventional glass in construction, aiming to enhance energy efficiency and reduce environmental impact. Additionally, her work in biopolymer composites addresses the urgent need for eco-friendly materials capable of removing toxic organic pollutants from pharmaceutical effluents. This research aligns with her commitment to green chemistry, focusing on biodegradable, renewable materials that mitigate pollution and reduce waste. Nontobeko’s work contributes to advancing sustainable technologies, combining her expertise in polymer science with a mission to address environmental challenges through innovative chemistry.

Publication Top Notes:

  • Engineered transparent wood with cellulose matrix for glass applications: A review
    • Citations: 1
  • Biopolymer composites for removal of toxic organic compounds in pharmaceutical effluents – a review
    • Citations: 15