DSM De Silva | Marine Pollution | Best Researcher Award

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Prof. DSM De Silva | Marine Pollution | Best Researcher Award

Professor in Chemistry | University of Kelaniya | Sri Lanka

Prof. Sujeewa De Silva is a distinguished Professor at the University of Kelaniya, Sri Lanka. With a PhD in Materials Science from the University of Sheffield, he specializes in materials development and environmental analysis. Over his career, he has made significant contributions to the fields of chemistry and materials science.

Profile

Scholar

Strengths for the Award 🏆

A solid foundation in Chemistry with a BSc from the University of Kelaniya and a PhD in Materials Science from the University of Sheffield. This strong academic background supports his research capabilities.

Over two decades of experience in academia, including significant roles from Assistant Lecturer to Professor. His research focus on materials development and characterization is particularly relevant to contemporary scientific challenges.

A substantial body of work, with 35 refereed articles and 85 conference contributions. His publications cover critical topics such as microplastic contamination and renewable energy technologies, indicating a broad impact on environmental and materials science.

Successfully secured significant funding from various national and international sources, including the World Bank and the Association of Commonwealth Universities. This demonstrates his ability to attract resources for research initiatives.

Multiple Vice-Chancellors Awards for outstanding research contributions and grant acquisition highlight his recognition within the academic community.

Leadership in several university committees and research centers showcases his ability to manage research projects effectively and contribute to academic administration.

Extensive teaching experience across various chemistry courses and supervision of postgraduate research, indicating a dedication to educating the next generation of scientists.

Education 🎓

Prof. De Silva earned his BSc in Chemistry from the University of Kelaniya (1994) with a thesis on “Novel inhibitors for Saccharomyces cerevisiae.” He completed his PhD in Materials Science at the University of Sheffield (2002), focusing on “Crystallization and molecular conformation of long chain n-alkanes.”

Experience 🧑‍🏫

His career at the University of Kelaniya spans several roles, including Lecturer and Senior Lecturer, leading to his current position as Professor since 2019. He has also served as a Postdoctoral Fellow at the University of Queensland, Australia, and has managed numerous projects focused on materials characterization and environmental chemistry.

Research Interest 🔬

Prof. De Silva’s research interests include materials development and characterization, as well as the analysis of environmental samples. His expertise in techniques such as SEM, EDS, and FTIR enhances his contributions to solar cell technology and environmental sustainability.

Awards 🏆

Prof. De Silva has received multiple accolades, including the Vice-Chancellors Awards for the highest amount of research grants (2016, 2022, 2023) and for Outstanding Senior Researcher (2nd Place in 2023 and 2019). He has also been recognized for his contributions to research supervision and quality.

Publication 📝

The effect of self-poisoning on crystal morphology and growth rates

Authors: G Ungar, EGR Putra, DSM De Silva, MA Shcherbina, AJ Waddon

Year: 2005

Citations: 66

Dilution wave and negative-order crystallization kinetics of chain molecules

Authors: G Ungar, PK Mandal, PG Higgs, DSM De Silva, E Boda, CM Chen

Year: 2000

Citations: 48

Chain tilt and surface disorder in lamellar crystals. A FTIR and SAXS study of labeled long alkanes

Authors: DSM de Silva, X Zeng, G Ungar, SJ Spells

Year: 2002

Citations: 46

Effect of stirring rate of electrolyte on properties of electrodeposited CdS layers

Authors: HYR Atapattu, DSM De Silva, KAS Pathiratne, IM Dharmadasa

Year: 2016

Citations: 31

Influence of the type of conducting glass substrate on the properties of electrodeposited CdS and CdTe thin films

Authors: ACS De Alwis, HYR Atapattu, DSM De Silva

Year: 2018

Citations: 15

Intrusion of heavy metals/metalloids into rice (Oryza sativa L.) in relation to their status in two different agricultural management systems in Sri Lanka

Authors: C Navarathna, S Pathiratne, DSM De Silva, J Rinklebe, D Mohan, T Mlsna

Year: 2021

Citations: 12

On perpendicular and tilted chains in lamellar crystals

Authors: DSM De Silva, X Zeng, G Ungar, SJ Spells

Year: 2003

Citations: 11

An investigation into the effect of rate of stirring of bath electrolyte on the properties of electrodeposited CdTe thin film semiconductors

Authors: HYR Atapattu, DSM De Silva, KAS Pathiratne, IM Dharmadasa

Year: 2018

Citations: 10

Effect of Pre-treatments on Extending the Shelf-life of Minimally Processed ‘Ela Batu’ (Solanum surattense)

Authors: PTS Dharmabandu, SM De Silva, S Wimalasena, W Wijesinghe, …

Year: 2010

Citations: 9

Altering NH4OH concentration in producing chemical bath deposited CdS to steadily support electrodeposited CdTe

Authors: G Gajanayake, DSM De Silva, HYR Atapattu

Year: 2021

Citations: 8

Conclusion 🌟

Sujeewa De Silva is a highly qualified candidate for the “Best Researcher Award“, showcasing a remarkable combination of academic achievement, research output, and recognition within the scientific community. His extensive experience, successful funding acquisition, and impactful publications highlight his commitment to advancing materials science and environmental research. By addressing areas for improvement, particularly in collaboration and public engagement, he could further enhance his contributions to the field. His dedication to education and research positions him as a deserving recipient of this prestigious award.

Chunpeng He | Marine Biology | Breakthrough Innovations Laureate Award

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Assoc. Prof. Dr. Chunpeng He | Marine Biology | Breakthrough Innovations Laureate Award

Associate professor | Southeast University | China

Chunpeng is an Associate Professor at the State Key Laboratory of Bioelectronics, School of Biological Science and Medical Engineering, Southeast University. With a focus on marine biology, he has significantly advanced our understanding of coral ecosystems and the intracellular digestion mechanisms in marine organisms. His groundbreaking research has implications for both ecological restoration and sustainable aquaculture.

Profile 🌊

Scholar

Strengths for the Award 🏆

Chunpeng has made significant contributions to marine biology, particularly with the discovery of the intracellular digestion mechanism in amphioxus, which was highlighted in Nature. This research opens avenues for understanding marine organism physiology and potential applications in biotechnology.

He developed methods to convert harmful algae into protein feedstuff, addressing both ecological and economic challenges. This innovation demonstrates a direct impact on marine resource management.

His work in assembling high-quality chromosome-scale reference genomes for stony corals provides essential resources for global coral reef restoration, highlighting his commitment to conservation.

Chunpeng has successfully led multiple funded projects focused on reef protection and management, showcasing his capability to attract financial support for critical research.

With numerous publications in high-impact journals, including several as corresponding author, his research is well-recognized in the scientific community.

Education 🎓

Chunpeng He completed his academic training in biological sciences, specializing in marine biology. His educational background provided a solid foundation for his innovative research, leading to numerous discoveries in coral reef systems and marine organism biology.

Experience 🧑‍🔬

Since 2007, Chunpeng has collaborated with esteemed researchers, including Professors Zuhong Lu and Junyuan Chen. His research achievements include elucidating the intracellular digestion mechanism in amphioxus and developing novel methods to convert harmful algae into valuable feedstuff. He has also contributed to the assembly of high-quality coral genomes, vital for reef restoration.

Research Interests 🔍

  • Developing enzyme preparations to degrade harmful algae.
  • Bio-reef building and stabilization technologies.
  • Exploring evolutionary origins in vertebrates using amphioxus and ancient fossils.

Awards 🏆

He was awarded the Gold Medal at the 2019 iGEM International Genetic Engineering Machine Design Competition for his project on “Algae Terminator.” This recognition highlights his contributions to innovative solutions in marine biology.

Publications 📚

Deciphering temporal gene expression dynamics in multiple coral species exposed to heat stress: Implications for predicting resilience

    • Authors: T Han, X Liao, Z Guo, JY Chen, C He, Z Lu
    • Year: 2024
    • Citations: 1

Polyp-Canal Reconstruction Reveals Evolution Toward Complexity in Corals

    • Authors: Y Li, X Liao, X Wang, Y Li, H Zhao, Y Zhao, J Chen, C He, Z Lu
    • Year: 2023
    • Citations: 3

Three amphioxus reference genomes reveal gene and chromosome evolution of chordates

    • Authors: Z Huang, L Xu, C Cai, Y Zhou, J Liu, Z Xu, Z Zhu, W Kang, W Cen, S Pei, …
    • Year: 2023
    • Citations: 31

Full-length transcriptome maps of reef-building coral illuminate the molecular basis of calcification, symbiosis, and circadian genes

    • Authors: T Han, X Liao, Y Zhu, Y Liu, N Lu, Y Li, Z Guo, JY Chen, C He, Z Lu
    • Year: 2022
    • Citations: 3

Symbiodiniaceae microRNAs and their targeting sites in coral holobionts: A transcriptomics-based exploration

    • Authors: Y Zhu, X Liao, T Han, JY Chen, C He, Z Lu
    • Year: 2022
    • Citations: 3

The formation of biogenic reef stone: From coral skeleton to reef rubble

    • Authors: Y Li, F Wang, Z Liu, J Jiang, T Han, X Liao, C He, Z Lu
    • Year: 2022
    • Citations: 7

Full-Length Transcriptome Sequencing Reveals Tissue-Specific Gene Expression Profile of Mangrove Clam Geloina erosa

    • Authors: X Liao, Y Liu, T Han, M Yang, W Liu, Y Wang, C He, Z Lu
    • Year: 2022
    • Citations: 5

Deep whole-genome resequencing sheds light on the distribution and effect of amphioxus SNPs

    • Authors: Y Zhu, N Lu, JY Chen, C He, Z Huang, Z Lu
    • Year: 2022
    • Citations: 4

Chemically and electrostatically double-crosslinked composite underwater adhesive

    • Authors: T Zhang, Y Fu, M Liang, L Xu, C He, Z Lu
    • Year: 2022
    • Citations: 2

Binding pattern reconstructions of FGF-FGFR budding-inducing signaling in reef-building corals

    • Authors: Z Guo, X Liao, JY Chen, C He, Z Lu
    • Year: 2022
    • Citations: 2
  • Utilizing an artificial intelligence system to build the digital structural proteome of reef-building corals
    • Authors: Y Zhu, X Liao, T Han, JY Chen, C He, Z Lu
    • Year: 2022
    • Citations: 2

Full-Length Transcriptome Sequencing of the Scleractinian Coral Montipora foliosa Reveals the Gene Expression Profile of Coral–Zooxanthellae Holobiont

    • Authors: Y Liu, X Liao, T Han, A Su, Z Guo, N Lu, C He, Z Lu
    • Year: 2021
    • Citations: 6

FEM: mining biological meaning from cell level in single-cell RNA sequencing data

    • Authors: Y Liu, N Lu, C Bi, T Han, G Zhuojun, Y Zhu, Y Li, C He, Z Lu
    • Year: 2021
    • Citations: 2

Micro‐CT reconstruction reveals the colony pattern regulations of four dominant reef‐building corals

    • Authors: Y Li, X Liao, K Bi, T Han, J Chen, J Lu, C He, Z Lu
    • Year: 2021
    • Citations: 12

Full-Length Transcriptomics Reveal the Gene Expression Profiles of Reef-Building Coral Pocillopora damicornis and Symbiont Zooxanthellae

    • Authors: Z Guo, X Liao, T Han, J Chen, C He, Z Lu
    • Year: 2021
    • Citations: 4

Conclusions 🌟

Chunpeng He’s extensive research in marine biology, innovative approaches to resource management, and dedication to coral reef restoration position him as an excellent candidate for the Breakthrough Innovations Laureate Award. His work not only advances scientific understanding but also has tangible benefits for marine ecosystems and the communities that depend on them. With targeted improvements in collaboration and public outreach, he could amplify the impact of his already significant contributions to the field.