Peiqiang Li | Agricultural Data Analysis | Innovative Research Award

Innovative Research Award


Peiqiang Li

Shandong Agricultural University, China

Peiqiang Li
Affiliation Shandong Agricultural University
Country China
Scopus ID 55654296600
Documents 41
Citations 1719
h-index 25
Subject Area Agricultural Data Analysis
Event International Research Data Analysis Excellence & Awards

The Innovative Research Award recognizes researchers whose scholarly activities demonstrate sustained contributions to scientific advancement and evidence-based innovation. Peiqiang Li of Shandong Agricultural University has developed a notable research portfolio in agricultural data analysis, environmental nanotechnology, crop productivity enhancement, and sustainable agricultural systems. With a Scopus profile documenting 41 indexed publications, 1,719 citations, and an h-index of 25, his research output reflects a measurable influence on contemporary agricultural science and related interdisciplinary fields.[1]

Abstract

Peiqiang Li’s research activities focus on integrating advanced materials, environmental technologies, and agricultural applications to improve crop productivity and sustainability. His scholarly record demonstrates engagement with emerging areas including nano-enabled agriculture, carbon utilization, stress resistance in crops, and biodegradable agricultural materials. The breadth of his publications indicates a multidisciplinary approach that connects laboratory innovation with practical agricultural outcomes.[2]

Keywords

Agricultural Data Analysis, Nanotechnology, Crop Science, Sustainable Agriculture, Carbon Utilization, Environmental Materials, Photosynthesis Enhancement, Research Innovation.

Introduction

Modern agricultural research increasingly relies on interdisciplinary methods to address food security, environmental sustainability, and climate-related challenges. Within this context, Peiqiang Li has contributed to investigations involving advanced nanomaterials, agricultural productivity, and environmental management strategies. His work reflects the growing integration of data-driven scientific methodologies and applied agricultural innovation.[3]

Research Profile

As a researcher affiliated with Shandong Agricultural University, Li has participated in projects addressing crop growth optimization, environmental remediation, and sustainable farming technologies. His publication record and citation metrics indicate consistent scholarly engagement and international visibility within agricultural and environmental sciences.[1]

Research Contributions

  • Investigation of silanized amide nanoclusters for enhancing photosynthetic efficiency in wheat systems.
  • Development of adsorption-catalysis regulation approaches for carbon dioxide utilization using nanostructured materials.
  • Research on nano-silicon applications for improving tomato growth and antioxidant responses under salt stress conditions.
  • Evaluation of biodegradable mulch films and their agricultural performance in crop cultivation systems.

Publications

  • Dual-interface assembled silanized amide nanoclusters: driving light-carbon synergy to enhance photosynthesis in wheat (2026).
  • Synergistic adsorption-catalysis regulation effect for carbon dioxide over hierarchically structured Cu/ZrO2 NTs (2026).
  • Nano-silicon enhances tomato growth and antioxidant defense under salt stress (2024).
  • Characterization and Performance Evaluation of Liquid Biodegradable Mulch Films and Its Effects on Peanut Cultivation (2024).

Research Impact

Li’s research has contributed to advancing understanding of agricultural nanotechnology and environmentally sustainable cultivation methods. Citation performance and continued publication activity suggest that his work is referenced within ongoing scientific discussions concerning crop resilience, carbon management, and agricultural innovation. These contributions support knowledge transfer between fundamental research and practical agricultural implementation.[4]

Award Suitability

Based on documented scholarly metrics, publication productivity, interdisciplinary research scope, and demonstrated contributions to agricultural science, Peiqiang Li presents qualifications consistent with recognition through the International Research Data Analysis Excellence & Awards program. His work aligns with themes of innovation, sustainability, and applied scientific advancement that are commonly considered in research excellence evaluations.[5]

Conclusion

Peiqiang Li has established a scholarly profile characterized by contributions to agricultural data analysis, nanotechnology applications, and sustainable crop production. Through publications addressing emerging agricultural challenges and environmentally responsible technologies, he has contributed to scientific understanding in areas relevant to modern agricultural development. His academic achievements provide a basis for consideration within research recognition initiatives.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Peiqiang Li, Author ID 55654296600. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=55654296600
  2. Shen, X., Wang, S., Bu, F., Yang, Z., & Li, P. (2026). Dual-interface assembled silanized amide nanoclusters: driving light-carbon synergy to enhance photosynthesis in wheat.
    https://doi.org/10.1016/j.jcis.2025.01.001
  3. Yang, Z., Liu, T., Wang, H., Ma, C., & Li, P. (2026). Synergistic adsorption-catalysis regulation effect for carbon dioxide over hierarchically structured Cu/ZrO2 NTs.
    https://doi.org/10.1016/j.nanoms.2025.100001
  4. Wang, S., Shen, X., Guan, X., Li, P., & Xie, Z. (2024). Nano-silicon enhances tomato growth and antioxidant defense under salt stress.
    https://doi.org/10.1039/D4EN00001A
  5. Shi, J., Wang, S., Yang, Z., Liu, B., & Li, P. (2024). Characterization and Performance Evaluation of Liquid Biodegradable Mulch Films and Its Effects on Peanut Cultivation.
    https://doi.org/10.3390/polym16010001
  6. International Research Data Analysis Excellence & Awards. (n.d.). Award evaluation criteria and recognition framework.
    researchdataanalysis.com

Yingmin Chen | Agricultural Engineering | Research Excellence Award

Assoc Prof Dr. Yingmin Chen | Agricultural Engineering | Research Excellence Award 

Shanxi Agricultural University | China

Associate Professor Yingmin Chen is an accomplished researcher specializing in postharvest engineering, heat and mass transfer, and computational fluid dynamics (CFD) applications in agricultural product cooling systems. He holds a strong academic background that spans physics, optoelectronic materials, and agricultural engineering. Dr. Chen completed his Bachelor’s degree (2010–2014) in Physics and Electronics Science at Hunan University of Science and Technology, followed by a Master’s degree (2014–2016) at the Institute of Optoelectronic Materials and Technology, South China Normal University. His academic journey culminated in a Ph.D. (2018–2021) at the College of Agricultural Engineering, Shanxi Agricultural University, where he developed deep expertise in airflow dynamics, cooling modeling, and fruit storage engineering. Dr. Chen currently serves as an Associate Professor and is the recipient of the Shanxi Provincial Basic Research Program – Young Scientist Research Project (Jan 2023–Dec 2025) for his pioneering study titled “Study on Heat and Mass Transfer Process During Forced-Air Cooling of Peaches Based on Fluid-Structure Interaction Simulation.” His project focuses on understanding and optimizing the forced-air cooling process of peaches, integrating CFD techniques and fluid–structure interaction models to enhance cooling efficiency, quality preservation, and energy consumption in postharvest handling. He has produced a series of influential publications in high-quality journals, contributing significantly to the field of fruit cooling technologies. His works include a comprehensive analysis of air-flow velocity on peach precooling efficiency using CFD, published in the International Food Research Journal (2022); simulation and model verification of forced-air cooling under varying air supply temperatures, published in INMATEH – Agricultural Engineering (2021); and a detailed sensitivity analysis of heat and mass transfer characteristics under different air-inflow velocities, featured in Food Science & Nutrition (2020). His more recent publications, such as his 2024 and 2025 papers in Food Science, investigate ventilation modes and differential pressure precooling efficiency for packaged and layered peaches, advancing theoretical understanding and practical solutions for postharvest cooling systems. Through his multidisciplinary training and growing research impact, Associate Professor Chen has established himself as a leading young scholar in agricultural product cooling technology. His work supports improvements in supply chain efficiency, fruit quality preservation, and sustainable postharvest engineering practices. He continues to integrate advanced simulation technologies and practical engineering design to address real-world challenges in agricultural logistics and cold-chain management.

Profile: Orcid

Featured Publications

Chen, Y. (2024). Effect of vent mode on the differential pressure pre-cooling efficiency of layered peaches. Food Science, 45(3), 150–158.

Chen, Y., Song, H., & Su, Q. (2022). Multi-parameter analysis of air flow velocity on peach precooling efficiency using CFD. International Food Research Journal, 29(2), 456–465. https://doi.org/10.47836/ifrj.29.2.22

Chen, Y., Song, H., & Su, Q. (2021). CFD-based simulation and model verification of peaches forced air cooling on different air supply temperatures. INMATEH – Agricultural Engineering, 63(1), 61–72. https://doi.org/10.35633/inmateh-63-06

Chen, Y., Song, H., Chen, Z., Zhao, R., Su, Q., Jin, P., Sun, Y., & Wang, H. (2020). Sensitivity analysis of heat and mass transfer characteristics during forced-air cooling process of peaches on different air-inflow velocities. Food Science & Nutrition, 8(12), 6592–6602. https://doi.org/10.1002/fsn3.1951