Yunnan Minzu University - China
AUTHOR PROFILE
SCOPUS
EARLY ACADEMIC PURSUITS
Lijuan Jia embarked on his academic journey by obtaining a Ph.D. in Engineering, positioning himself as a prominent scholar in his field. His early academic pursuits laid the groundwork for his future contributions to the realm of environmental science and technology.
PROFESSIONAL ENDEAVORS
Transitioning into the professional realm, Jia assumed the role of a Professor and Master's supervisor at Yunnan Minzu University. He has been recognized as a top talent in Yunnan Province, further underscoring his dedication to academic excellence and research leadership.
Jia's research focuses on innovative solutions for environmental challenges in the chemical and metallurgical industries. His work encompasses flue gas desulfurization, denitrification technology, and solid waste resource utilization, addressing critical issues in pollution control and waste management.
IMPACT AND INFLUENCE
Lijuan Jia's research has made a significant impact on environmental science and technology, particularly in the areas of flue gas cleaning and solid waste management. His contributions have led to advancements in pollution control technologies and sustainable resource utilization practices, shaping industry standards and regulatory frameworks.
ACADEMIC CITATIONS
Jia's publications have garnered considerable attention within the scientific community, evident from his substantial citation index. His research on flue gas cleaning, mineral slurry utilization, and waste resource recovery has been widely cited, reflecting the relevance and influence of his work in academia and industry.
LEGACY AND FUTURE CONTRIBUTIONS
Lijuan Jia's legacy lies in his commitment to addressing pressing environmental challenges through innovative research and technology development. Moving forward, his work is poised to continue shaping environmental policy and practice, with a focus on promoting sustainable industrial processes and waste management solutions.
NOTABLE PUBLICATIONS
ZIF-67-derived Co@NC as an efficient catalyst for magnesium sulfite oxidation in the flue gas desulfurization process 2024
Synthesis of Ti3C2Tx nanosheets / ZnO nanowires composite material for NO2 gas sensing 2024
High efficiency removal of NO using waste calcium carbide slag by facile KOH modification 2024
Catalytic hydrolysis of monochlorodifluoromethane over ZnO/ZrO2 catalysts at low temperatures 2024
Enhanced low-temperature selective catalytic reduction (SCR) activity and H2O and SO2 resistance of flower-like 2024