Andrews Appiah | Plant Science | Best Researcher Award

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Mr. Andrews Appiah | Plant Science | Best Researcher Award

Lecturer at Sunyani Technical University, Ghana

Andrews Appiah is a Ghanaian academic and researcher in the field of agriculture and plant breeding. With a strong background in general agriculture, crop genetics, and competency-based education, he currently serves as an Assistant Lecturer at the Department of General Agriculture, Sunyani Technical University. His expertise spans plant breeding, molecular diversity analysis, and sustainable crop production, and he has published in notable peer-reviewed journals. He is also actively involved in student mentorship, research development, and academic committee work.

Publication Profile 

Google Scholar

Educational Background 🎓

  • Diploma in Education (CBT Option)
    Akenten Appiah-Menka University of Skill Training and Entrepreneurial Development (AAMUSTED), Kumasi, Ghana
    (2021 – 2022)

  • MPhil in Plant Breeding
    Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, Ghana
    (2018 – 2021)

  • BSc in Agriculture
    Methodist University Ghana, Wenchi Campus
    (2013 – 2016)

  • Higher National Diploma (HND) in General Agriculture
    Sunyani Technical University (formerly Sunyani Polytechnic)
    (2008 – 2011)

  • WASSCE
    Drobo Senior High School, Ghana
    (2003 – 2006)

Professional Experience 💼

  • Assistant Lecturer (2021–Present)
    Department of General Agriculture, Sunyani Technical University

    • Teaching, research, curriculum development

  • Research and Grantsmanship Committee Member (2022–Present)
    Sunyani Technical University

  • Assistant Coordinator, Student Internships (2021–Present)
    Sunyani Technical University

  • Principal Technician (2017–2021)
    Sunyani Technical University

    • Supervised student practicals, agricultural production, research assistantship

  • Senior Technician (2012–2017)
    Sunyani Technical University

  • Tutor (2011–2012)
    Ghana Education Service, Pentecost JHS, Sankore

  • Agricultural Extension Agent (2010–2011)
    Ministry of Food and Agriculture (MoFA), Sene West District

  • Internships:

    • Wenchi Farm and Research Institutes (Feb–Apr 2009)

    • MoFA, Jaman South Municipal (June–Sept 2008)

Research Interests 🔬

  • Plant breeding and genetics (okra, cowpea)

  • Molecular and morphological diversity

  • Sustainable crop improvement

  • Quantitative genetics

  • Integrated pest management (e.g., neem oil efficacy)

  • Agricultural biotechnology and data analysis

Workshops Attended

  • CBT workshops by CTVET (2022–2024)

  • Bricks Agricultural Biotechnology Skills Camp, Russia

  • Research writing workshops (2022, 2017)

  • Plant breeding and genetics training with Texas A&M and Iowa State University

  • Poultry diseases and rice production workshops (MoFA)

Awards and Honors🏆✨

While specific awards were not listed, his multiple international publications, invited training programs, and CBT teaching recognition highlight his respected status in agricultural academia and training circles.

Conclusion🌟

Andrews Appiah is a dynamic and experienced agricultural scientist with a solid foundation in plant breeding, education, and practical fieldwork. His academic and technical journey from technician to assistant lecturer showcases his commitment to growth, research excellence, and capacity-building in Ghana’s agricultural sector. With strong analytical, teaching, and interpersonal skills, he continues to contribute to advancing sustainable agriculture and education.

Publications 📚

  • 🧬 Owusu, E.Y., Kusi, F., Kena, A.W., Kassim, Y.B., Annor, B., Awuku, F.J., Attamah, P., Appiah, A., Lamini, S., Kuor, F., & Akromah, R.
    Gains in genetic enhancement of early maturing advanced breeding lines of cowpea (Vigna unguiculata (L.) Walp)
    Ecological Genetics and Genomics, 2025.
    🔗 DOI: 10.1016/j.egg.2025.100339

  • 🌿 Appiah, A., Akromah, R., Owusu, E.Y., & Addo, S.
    Genetic variability, heritability, genetic advance and correlation studies for yield and its attributes in okra (Abelmoschus esculentus (L.) Moench)
    📝 Euphytica (in press)

  • 🧬 Appiah, A., Akromah, R., Kena, A.W., Annor, B., Amoah, S., & Owusu, E.Y.
    Molecular and Morphological diversity among Ghanaian okra germplasm: An excellent breeding resource
    📝 Ecological Genetics and Genomics (in press)

  • 📘 MPhil Thesis:
    Genetic diversity among a collection of okra (Abelmoschus esculentus L.) genotypes in Ghana using morphological and molecular markers
    – KNUST, Ghana (2021)

  • 📘 BSc Thesis:
    Comparative effectiveness of commercial neem oil and synthetic insecticides (Karate) in the management of insect damage on cowpea
    – Methodist University Ghana (2016)

  • 📘 HND Dissertation:
    The Impact of illegal chainsaw operations on forest fringed communities: A study at the Miremano Forest Reserve of Ghana
    – Sunyani Technical University (2010)

  • 🪴 Mensah, G.W.K., Appiah, A., Anorbor, E.C., & Anku, L.
    Field evaluation of commercial neem oil in managing insect damage on cowpea in the Forest Zone of Ghana
    Agricultural Science Research Journal, 7(11): 329–336
    🔗 resjournals.com
    📄 ISSN: 2026–6073

 

 

 

 

Qiang Li | Environmental Science | Excellence in Research

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Mr. Qiang Li | Environmental Science | Excellence in Research

Professor at Wuhan Textile University, China

Qiang Li, a researcher at Wuhan Textile University, is recognized for his expertise in environmental engineering, particularly wastewater treatment. His contributions to sustainable water management through innovative adsorption techniques, advanced oxidation processes (AOPs), and the development of metal-doped biochar composites have positioned him as a leading figure in his field. He holds a PhD from Nanjing University and has a prolific publication record with significant work in wastewater treatment and environmental remediation. His work aims to address global environmental challenges, focusing on the degradation of harmful chemicals in water, such as antibiotics and industrial pollutants. He is an active participant in various academic and professional organizations, adding to his influence in the scientific community.

Professional Profile

Education:

Qiang Li completed his PhD in Environmental Engineering at Nanjing University (2013-2016) under the supervision of Professor Aimin Li. His doctoral research centered on innovative materials and processes for wastewater treatment, focusing on adsorption technologies and catalytic degradation. He also holds a background in environmental engineering, equipping him with the knowledge and skills to contribute to sustainable solutions for water purification and pollution control. His education has provided a solid foundation for his career in both academic research and practical applications in environmental engineering.

Professional Experience:

Dr. Qiang Li serves as a faculty member at Wuhan Textile University, where he leads research projects and supervises graduate students in environmental engineering. His professional experience includes extensive work in wastewater treatment, focusing on developing new materials and processes for removing pollutants from water. In addition to his academic role, he is involved in evaluating graduate and undergraduate theses as an expert for the Degree Center of the Ministry of Education. His involvement in various professional organizations, including the China Textile Industry Association and the China Materials Research Society, further highlights his broad engagement in the scientific community.

Research Interests:

Qiang Li’s research interests are primarily focused on advanced wastewater treatment technologies. His work includes developing metal-biochar composites for the degradation of pharmaceuticals and other pollutants, particularly through activated persulfate oxidation. He is also interested in the preparation of novel adsorbents, including biochar and resin-based materials, and their applications in water purification. His innovative research aims to tackle persistent environmental issues, such as antibiotic contamination and industrial wastewater, by improving existing treatment methods and introducing more effective, sustainable alternatives.

Awards and Honors:

Dr. Qiang Li has received recognition for his contributions to environmental research and engineering. He is a valued expert for thesis evaluations at the Degree Center of the Ministry of Education and the Hubei Science and Technology Department. His inclusion in various expert databases, such as the Wuhan Science and Technology Expert Database, demonstrates his professional standing. Additionally, his active participation in organizations like the China Materials Research Society and the China Textile Industry Association highlights his respected position in the scientific community. His work is also published in high-impact journals, further attesting to his academic and research excellence.

Conclusion:

Qiang Li is a distinguished researcher in the field of environmental engineering, specializing in wastewater treatment technologies and sustainable water purification methods. His educational background, professional expertise, and contributions to advancing the understanding of pollutant degradation make him an ideal candidate for recognition. His continuous work in developing novel materials for water treatment showcases his commitment to addressing global environmental challenges, making him an asset to both academic and professional communities. Dr. Li’s innovative approaches and impactful research ensure that he remains at the forefront of environmental engineering, with the potential to influence significant positive change in water quality management.

Publication Top Notes

  1. Efficient degradation of carbamazepine by Cu-Fe bimetallic composite carbon derived from the waste cation exchange resins: Mechanism, ecotoxicity, and continuous flow catalysis
    • Authors: Li, Q., Zong, X., Li, H., Ye, Y., Pan, F.
    • Year: 2025
    • Journal: Separation and Purification Technology
    • Citations: 1
  2. Copper-doped orange peel biochar activated peroxydisulfate for efficient degrading tetracycline: The critical role of C-OH and Cu
    • Authors: Li, H., Sun, H., Li, Q., Ye, Y., Pan, F.
    • Year: 2024
    • Journal: Environmental Research
    • Citations: 0
  3. Efficient degradation of tetracycline by Mn(III)-microbial complexes mediated by mnOx@ACF in sequencing batch reactors: performance, mechanism, and effect on microbial community structure
    • Authors: Zhou, H., Xiao, L., Deng, Y., Zhang, Y., Pan, F.
    • Year: 2024
    • Journal: Water Science and Technology
    • Citations: 0
  4. Sponge-based FeS activated persulfate coupled with biodegradation for highly efficient removal of tetracycline: Batch and column validation
    • Authors: Mei, S., Han, M., Hao, J., Wu, Z., Pan, F.
    • Year: 2024
    • Journal: Journal of Water Process Engineering
    • Citations: 0
  5. Relying on free radical degradation of cephalexin by novel Cu1Co2@C catalyzed by permonosulfate: Mechanism and degradation pathways
    • Authors: Zong, X., Li, X., Wu, J., Li, Q., Pan, F.
    • Year: 2024
    • Journal: Journal of Water Process Engineering
    • Citations: 2
  6. Phytic acid pre-modulated and Fe/N co-doped biochar derived from ramie fiber to active persulfate for efficient degradation of tetracycline via radical and non-radical pathways
    • Authors: Deng, Y., Xiao, L., Zhou, H., Ye, Y., Pan, F.
    • Year: 2024
    • Journal: Separation and Purification Technology
    • Citations: 7
  7. Restudy of Aidelaisi technology and heritage | 新疆和田艾德莱斯工艺与传承再研究
    • Authors: Halimire, Y., Li, Q., Xiakeer, S.
    • Year: 2024
    • Journal: Fangzhi Gaoxiao Jichukexue Xuebao
    • Citations: 0
  8. One-step strategy for efficient Cr(VI) removal via phytate modified zero-valent iron: Accelerated electron transfer and enhanced coordination effect
    • Authors: Gan, R., Ye, Y., Zhan, Z., Li, Q., Pan, F.
    • Year: 2024
    • Journal: Journal of Hazardous Materials
    • Citations: 12
  9. Highly efficient adsorption of ciprofloxacin from aqueous solutions by waste cation exchange resin-based activated carbons: Performance, mechanism, and theoretical calculation
    • Authors: Li, Q., Li, H., Zong, X., Ye, Y., Pan, F.
    • Year: 2024
    • Journal: Science of the Total Environment
    • Citations: 12
  10. Enhanced decomplexation of Cu(II) complexes and Cu removal by the nFe3O4/persulfate coupled microbial system: Synergistic effect, validation, and mechanism
    • Authors: Gan, R., Wang, L., Zeng, Z., Ye, Y., Pan, F.
    • Year: 2024
    • Journal: Separation and Purification Technology
    • Citations: 2