Dr. Yaru Peng – Environmental Science – Best Researcher Award

Dr. Yaru Peng - Environmental Science - Best Researcher Award

College of Electronics and Engineering, North China University of Water Resources and Electric Power - China 

Author Profile 

ORCID

Early academic pursuits 🎓

yaru peng’s academic foundation is rooted in physics, where she obtained a ph.d., specializing in photocatalysis and photoelectrochemistry. her early education laid the groundwork for her future research endeavors, fostering a passion for innovative approaches to environmental purification and energy conversion. her academic journey was marked by an unwavering commitment to mastering the intricate mechanisms of photocatalytic systems.

Professional endeavors 🏫

as a researcher at the college of electronics and engineering, north china university of water resources and electric power, yaru has dedicated her career to advancing the fields of photocatalysis and photoelectrochemistry. her work is characterized by innovative methodologies and a focus on addressing critical environmental challenges. her position allows her to combine academic rigor with practical applications, bridging the gap between theory and implementation.

Contributions and research focus 🔍

yaru’s research focuses on enhancing the efficiency of photocatalytic and photoelectrochemical processes. she has pioneered work on crystal plane engineering and band structure regulation to improve visible light absorption and charge separation. her project on the band structure and transport properties of srtio3:rh/bi(vo4) Environmental Science epitaxial heterojunction stands out as a milestone, contributing to the development of stable semiconductor photocatalysts for water splitting and energy applications.

Accolades and recognition 🏅

yaru has published six high-quality research articles in renowned journals, with a collective citation count of 35, reflecting the significance of her contributions to the Environmental Science scientific community. her publications are widely regarded as valuable references for researchers in the fields of photocatalysis and photoelectrochemistry. her peers recognize her innovative approaches as critical advancements in the domain.

Impact and influence 🌍

yaru’s work has had a tangible impact on the fields of environmental purification and sustainable energy. her novel methods for developing corrosion-resistant al-ni alloys through molten salt electrolysis demonstrate her ability to translate complex scientific theories into practical solutions. her research has set benchmarks in Environmental Science photoelectric conversion efficiency and semiconductor material stability, influencing ongoing advancements in energy and environmental science.

Legacy and future contributions 🔮

yaru peng's legacy lies in her dedication to addressing global energy and environmental challenges through innovative research. her commitment to developing efficient, stable, and sustainable photocatalytic systems positions her as a trailblazer in her field. her future endeavors are expected to further push the boundaries of photoelectrochemical applications, inspiring a new generation of researchers to explore novel solutions for a sustainable future.

Notable Publications

  1. Title: H2O2-assisted room temperature preparation of crystalline TiO2 and Ti3C2Tx-derived C-doped amorphous TiOx homojunction for photocatalytic degradation of tetracycline
    Author(s): Junhao Cai, Yaru Peng, Po Hu, Yuan Zhou, Qiaoge Yao, Hao Lyu, Youtang Gao
    Journal: Applied Surface Science
  2. Title: Regulating the thickness of the NiO layer to optimize the photoinduced carrier separation behavior of BiVO4
    Author(s): Yaru Peng, Junhao Cai, Guoqiang Li
    Journal: Catalysis Science & Technology
  3. Title: Enhanced charge separation of NiO/ZnO P-N heterojunction nanorod arrays for photoelectrochemical water splitting
    Author(s): Junhao Cai, Heng Tao, Yaru Peng, Xiang Zhao, Po Hu, Yuan Zhou, Hao Lyu, Youtang Gao, Shuiwang Guo
    Journal: Surfaces and Interfaces
  4. Title: Photocarrier behavior and photocatalytic H2O2 synthesis performance of amorphous/crystalline SrTiO3/BiVO4 layered heterostructures
    Author(s): Yaru Peng, Yuxin Shi, Shicheng Yan, Guoqiang Li
    Journal: Renewable Energy
  5. Title: Band alignment and photocatalytic activity of monoclinic BiVO4 (0 1 0) and (1 0 0) films with SrTiO3
    Author(s): Yaru Peng, Pengwei Zhai, Yuxin Shi, Haoxiang Jiang, Guoqiang Li
    Journal: Applied Surface Science

Assoc Prof Dr.  Yu-nan Chen – Thermochemical conversion of biomass and organic solid waste – Best Researcher Award

Assoc Prof Dr.  Yu-nan Chen - Thermochemical conversion of biomass and organic solid waste - Best Researcher Award

Xi'an Jiaotong University - China

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Yu-nan Chen's journey in the field of energy and chemical engineering began with his passion for understanding complex chemical reactions. he pursued his education with a focus on chemical processes in extreme conditions, leading him to specialize in the area of supercritical water gasification. his academic foundation was further strengthened by advanced studies at xi’an jiaotong university, where he honed his skills in chemical reaction mechanisms and supercritical fluids.

Professional endeavors 🏛️

currently an associate professor at the state key laboratory of multiphase flow in power engineering at xi’an jiaotong university, yu-nan chen plays a pivotal role in advancing research on energy conversion processes. his professional career is centered around the exploration of coal, biomass, and organic waste gasification, focusing on the utilization of supercritical water. through his leadership in national research projects, chen has positioned himself as a key figure in the field of sustainable energy and resource utilization.

contributions and research focus 🌱

Yu-nan Chen’s research focuses on the supercritical water gasification process, exploring the chemical reaction mechanisms involved. using advanced computational techniques such as density functional theory, he has uncovered the microscopic reaction dynamics of supercritical water, hydrogen, and free radicals. his innovative Thermochemical conversion of biomass and organic solid waste work has contributed significantly to the understanding of how these elements interact during the gasification of coal and biomass, paving the way for more efficient and sustainable energy solutions.

Accolades and recognition 🏅

Yu-nan Chen’s contributions to the field are recognized through his extensive publication record, with over 30 original papers in leading scientific journals. he has also been awarded 11 patents, a testament to the practical application of his research. as a leader in national research initiatives, chen's work has received widespread Thermochemical conversion of biomass and organic solid waste recognition within the scientific community, solidifying his status as an influential figure in chemical engineering and energy research.

Impact and influence 🌍

The impact of yu-nan chen’s research extends beyond academia. his work on supercritical water gasification has practical implications for energy resource management, offering sustainable solutions for the utilization of coal, biomass, and organic waste. by revealing the microscopic reaction mechanisms in these Thermochemical conversion of biomass and organic solid waste processes, his research contributes to the development of cleaner, more efficient energy technologies, influencing both scientific advancements and industrial practices.

Legacy and future contributions 🔮

Yu-nan chen’s legacy lies in his groundbreaking research on supercritical water gasification and his role in promoting sustainable energy utilization. his future work promises to further advance the field, with a continued focus on uncovering deeper insights into the chemical reactions involved in energy conversion processes. chen’s commitment to innovation and sustainability ensures that his research will have lasting influence on both science and society.

Notable Publications

Prof. lijuan Jia – Solid waste resource utilization – Best Researcher Award

Prof. lijuan Jia - Solid waste resource utilization - Best Researcher Award

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.

CONTRIBUTIONS AND RESEARCH FOCUS ON SOLID WASTE RESOURCE UTILIZATION

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