Education:
- Ph.D. in Environmental Engineering, Tongji University, 2012
- M.Sc. in Biochemical Engineering, East China University of Science and Technology, 2009
- B.Sc. in Biotechnology, Hefei University of Technology, 2006
Research Interests:
Environmental microbial technology, microbial CO2 fixation, recycling of waste biomass, soil remediation.
Research Focus: Agricultural Research
Dr. Jiajun Hu, as an Associate Professor at Shanghai University’s School of Life Sciences and a researcher at the Shanghai Key Laboratory of Bio-Energy Crops, specializes in agricultural research. His work primarily revolves around enhancing agricultural productivity and sustainability through innovative practices. Dr. Hu’s research interests include:
- Microbial Technology in Agriculture: Developing microbial solutions for enhancing soil fertility, nutrient cycling, and crop health.
- Bio-Energy Crops: Studying biochar applications, waste biomass utilization, and their impact on agricultural productivity and sustainability.
- Soil Remediation: Investigating methods to improve soil quality, reduce pollution, and optimize agricultural land use.
His dedication to advancing agricultural technologies aims to address global food security challenges and promote environmentally friendly farming practices.
Citation:
- Citations: 1,193
- Documents: 886
- h-index: 19
Publication Top Notes:
- In-situ targeted removal of naphthalene from groundwater by peroxymonosulfate activation using molecularly imprinted activated carbon: Efficacy, mechanism and applicability
- Authors: Bo Zhang, Dai C., Li J., Li Z., Hon Leong K.
- Journal: Separation and Purification Technology, 2024, 348, 127730
- Summary: This article likely explores the effectiveness, mechanisms, and practical applications of using molecularly imprinted activated carbon to remove naphthalene from groundwater using peroxymonosulfate activation.
- Activated carbon/persulfate-driven in-situ remediation of naphthalene-polluted groundwater: Insights into active sites, passivation-activation mechanisms and practical applications
- Authors: Dai C., Zhang J.B., Zou J.J., Liang Y., Zhou L.
- Journal: Journal of Environmental Chemical Engineering, 2024, 12(4), 113126
- Summary: Focuses on the use of activated carbon and persulfate for in-situ remediation of naphthalene-polluted groundwater, discussing active sites, passivation-activation mechanisms, and practical applications.
- Nanobubbles improve peroxymonosulfate-based advanced oxidation: High efficiency, low toxicity/cost, and novel collaborative mechanism
- Authors: Zhang J.B., Zou J.J., Dai C., Leong K.H., Xu X.S.
- Journal: Journal of Hazardous Materials, 2024, 472, 134499
- Summary: Explores the enhancement of peroxymonosulfate-based advanced oxidation using nanobubbles, emphasizing high efficiency, low toxicity/cost, and novel collaborative mechanisms.
- Response model between nanobubble preparation parameters and properties: Controllable preparation & its application example
- Authors: Feng X.R., Hu J., Liu N., Han Y., Li J.
- Journal: Journal of Water Process Engineering, 2024, 64, 105660
- Summary: Likely discusses a response model for controlling nanobubble preparation parameters and their properties, with practical applications.
- A novel mycelial pellet applied to remove polycyclic aromatic hydrocarbons: High adsorption performance & its mechanisms
- Authors: Zou J.J., Dai C., Hu J., Fu R., Zhou L.
- Journal: Science of the Total Environment, 2024, 922, 171201
- Summary: Examines the use of a novel mycelial pellet for high-performance adsorption of polycyclic aromatic hydrocarbons, detailing the mechanisms involved.
- Preparation of C=C polymerization-oriented magnetic protein molecularly imprinted polymer and the application for membrane flux improvement
- Authors: Zhang Q., Hu J., Guo H., Tian Y., Ngo H.H.
- Journal: Desalination, 2024, 573, 117206
- Summary: Involves the preparation of a magnetic protein molecularly imprinted polymer focused on C=C polymerization and its application for improving membrane flux.