Huihui Chen | Environmental Engineering | Environmental Botany Impact Award

Environmental Botany Impact Award

Huihui Chen
Shanghai University, Shanghai, China

                    Huihui Chen
Affiliation Shanghai University
Country China
Scopus ID 57046898200
Documents 31
Citations 2,342
h-index 18
Subject Area Environmental Engineering
Event Botany Scientist Awards

The Innovative Research Award recognizes scholars whose research activities demonstrate originality, scientific rigor, and meaningful contributions to their discipline. Huihui Chen has established an academic profile within the field of Environmental Engineering through a substantial body of scholarly work, extensive citation impact, and active participation in internationally visible research initiatives. The available bibliometric indicators reflect sustained engagement with environmental science challenges and interdisciplinary engineering applications.[1]

Abstract

This article provides an academic overview of Huihui Chen and evaluates the research profile in relation to the Innovative Research Award. Drawing upon available bibliometric indicators and scholarly achievements, the review highlights contributions to environmental engineering, interdisciplinary scientific collaboration, and research dissemination. The assessment adopts a neutral and evidence-based approach consistent with academic recognition standards.[1]

Keywords

Environmental Engineering, Sustainable Development, Environmental Science, Engineering Research, Scientific Impact, Scholarly Publications, Citation Analysis, Research Excellence, China, Innovative Research Award.

Introduction

Environmental engineering plays a critical role in addressing global challenges related to pollution control, resource management, sustainability, and environmental protection. Researchers working in this field contribute to scientific understanding and technological innovation that support ecological resilience and sustainable development. Huihui Chen’s scholarly activities reflect engagement with these objectives through a substantial record of publications and citation impact within internationally recognized research platforms.[1]

Research Profile

According to available Scopus author information, Huihui Chen is affiliated with Shanghai University, China. The profile records 31 indexed publications, 2,342 citations, and an h-index of 18. These indicators demonstrate a notable level of scholarly visibility and sustained engagement within environmental engineering and related interdisciplinary research areas.[1]

Research Contributions

Huihui Chen’s research activities contribute to the advancement of environmental engineering through investigations addressing sustainability, environmental management, and engineering-based solutions to environmental challenges. The scholarly output demonstrates engagement with interdisciplinary methodologies and contemporary scientific questions that are relevant to environmental protection and sustainable development.[1]

Publications

The publication record associated with Huihui Chen reflects sustained scholarly productivity and engagement with internationally indexed journals. The portfolio demonstrates contributions to environmental engineering research and participation in collaborative scientific studies that have attracted substantial attention from the research community.[1]

Research Impact

Research impact is commonly assessed through a combination of publication quality, citation performance, and influence on subsequent scientific investigations. The available metrics associated with Huihui Chen indicate substantial engagement from the research community. More than two thousand citations suggest that the published work has informed and supported subsequent scholarly studies across related disciplines.[1]

Award Suitability

The Innovative Research Award recognizes individuals whose scientific activities contribute meaningfully to knowledge advancement and innovation. Huihui Chen’s publication record, citation performance, and sustained engagement with environmental engineering research demonstrate characteristics commonly associated with academic excellence and research distinction. The available evidence indicates a strong level of scholarly impact and continued contribution to contemporary environmental science and engineering.[1]

Conclusion

Huihui Chen has established a distinguished research profile characterized by substantial scholarly output, strong citation performance, and active engagement with environmental engineering research. The available bibliometric indicators demonstrate sustained academic influence and meaningful contributions to scientific knowledge. Based on the evidence reviewed, the profile aligns well with the objectives and criteria typically associated with innovative research recognition programs.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Huihui Chen, Author ID 57046898200. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57046898200
  2. Highly selective recovery of lanthanum and cerium from wastewater by amidoxime-modified biochar, https://doi.org/10.1016/j.seppur.2025.133303
  3. Risk analysis of water supply-hydropower generation-environment nexus in the cascade reservoir operation DOI: 10.1016/j.jclepro.2020.124239
  4. Enhanced lethal effect of UV irradiation on Microcystis aeruginosa assisted by a UV tolerant quorum quenching bacterium: An environmental friendly bloom control strategy, https://doi.org/10.1016/j.jece.2026.122378
  5. Short-chain fatty acids production from hydrothermal conversion wastewater (HTCWW): focusing on microbial community analysis, 10.1016/j.biortech.2025.133260

Manish Mathur | Ecology | Botany Scientist Excellence Award

Botany Scientist Excellence Award

Manish Mathur
Central Arid Zone Research Institute, India
                   Manish Mathur
Affiliation Environmental & Ecological Research Scholar
Country India
Scopus ID 55568606100
Documents 100+ publications, chapters and books
Citations Multiple indexed citations across journals
h-index 11
Subject Area Ecology, Ethnobotany, Plant Pathology, Environmental Assessment
Event Botany Scientist Awards
ORCID 0000-0001-6794-7408

Manish Mathur has contributed extensively to ecological sciences, ethnobotany, environmental impact assessment, arid ecosystem studies, plant disease epidemiology, herbal medicine, and quantitative ecological modelling. The body of work includes journal articles, edited book chapters, authored books, conference presentations, and interdisciplinary environmental research spanning more than a decade.

Abstract

This article summarizes the scholarly profile of Manish Mathur, whose research addresses biodiversity, ecological modelling, ethnopharmacology, environmental impact assessment, plant pathology, and arid land ecosystems. His work demonstrates interdisciplinary integration between ecology, traditional knowledge systems, and environmental sustainability.

Keywords

Ecology; Ethnobotany; Environmental Impact Assessment; Plant Pathology; Arid Ecosystems; Biodiversity; Quantitative Ecology; Herbal Medicine.

Introduction

Contemporary environmental science increasingly relies upon interdisciplinary approaches linking biodiversity conservation, ecological modelling, ethnobotanical knowledge, and sustainability assessment. Mathur’s publications reflect these intersections through long-term research outputs.

Research Profile

  • Author of multiple academic books and edited chapters.
  • Research across ecology, ethnomedicine, plant epidemiology and environmental assessment.
  • Contributor to NCBI gene-sequence submissions.
  • Conference papers presented nationally and internationally.
  • ORCID profile available for scholarly identification.

Research Contributions

Notable contributions include ecological assessment of arid regions, ethnobotanical quantification methods, environmental impact analysis frameworks, nano-technology applications in herbal medicine, and modelling approaches for disease epidemiology.[3]

Publications

Authored scholarly books including Attributes of Plant Spatial Analysis, Plant Disease Epidemiology, and Environmental Impact Assessment, demonstrating significant contributions to environmental and biological sciences. Contributions to Springer and Elsevier book chapters with DOI indexing further highlight international academic recognition and research impact. Published research papers in ecology, biodiversity, and ethnopharmacology journals reflect a strong commitment to advancing scientific understanding and sustainable environmental research.

Research Impact

The publication record indicates sustained academic productivity and broad thematic coverage. Outputs contribute to biodiversity conservation, ecological forecasting, sustainable land management, and traditional knowledge documentation.[4]

Award Suitability

A lifetime achievement recognition is aligned with the long duration, diversity, and interdisciplinary nature of contributions documented across ecology, environmental science, ethnobotany, and plant disease research.

Conclusion

Manish Mathur’s academic portfolio reflects extensive engagement with environmental sciences and applied ecological research, supported through books, peer-reviewed publications, and interdisciplinary investigations.

References

  1. Mathur, M. & Gehlot, P. (2018). Recruit the Plant Pathogen for Weed Management: Bioherbicide – A Sustainable Strategy.https://doi.org/10.1007/978-981-13-0393-7_10
  2. Mathur, M. & Mathur, P. (2022). Strategies to Achieve Sustainable Development Goals (SDGs): A Road Map for Global Development.https://doi.org/10.52305/YNDL2610
  3. Global habitat distribution modelling of Pergularia daemia: A paradoxical species functioning simultaneously as a medicinal herb and an aggressive weed, https://doi.org/10.1016/j.sajb.2026.03.038
  4. Climate‐Resilient Suitability Mapping of Cowpea ( Vigna unguiculata L. Walp.) Using Ensemble Modelling and Multi‐Criteria Evaluation, https://doi.org/10.1111/jac.70156
  5. Climate-driven shifts in avocado suitability zones in India: Insights from ensemble modelling and niche hypervolume, https://doi.org/10.1371/journal.pone.0338518