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Bio
I specialize in materials chemistry with a particular focus on the fabrication of semiconducting materials for solar light-driven photocatalytic water splitting, aiming to generate hydrogen energy through artificial photosynthesis. Throughout my Ph.D., I successfully developed facile fabrication methods for various semiconducting materials, ensuring proper band alignment for efficient photocatalysis. Additionally, I conducted extensive research on the synthesis of layered materials, oxide materials, plasmonic photocatalysts, heterojunction materials, mesoporous materials, carbon-based materials, and nanocomposites. My expertise also encompasses the operation and analysis of routine techniques and modern characterization methods for nanomaterials.
Following completing my Ph.D. in 2015, I served as a Research Associate at the Centre for Advanced Materials, Qatar University, for approximately one year. During this time, I demonstrated productivity in projects involving the removal of organic compounds from water and electrocatalytic water-splitting reactions utilizing layered materials.
Subsequently, I joined the Qatar Environment and Energy Research Institute (QEERI) as a postdoctoral researcher. My primary focus was the development of new growth methods for carbon materials using chemical vapor deposition (CVD) techniques, specifically targeting their application in flow batteries. Moreover, I designed innovative strategies to engineer ID, 2D, and 3D hierarchical porous carbon-based materials. The objective of my work was to create low-cost carbon-based materials suitable for high-energy-density flow batteries using a slurry electrode-electrolyte system.
Afterward, I transitioned to BUCT, China, where my research centered around the construction of bimetallic nanoarray-based hierarchical geometric structures with surface wettability electrodes. These structures exhibited exceptional electrochemical properties for gas-involved reactions.
Subsequently, I joined the Environmental Remediation Engineering Laboratory (EREL) at JBNU, South Korea, as a postdoctoral researcher. In this role, my research focused on simultaneous photo-redox reactions of As(III) and Cr(VI) using various hybrid nanomaterials.
Currently, I am employed as a researcher Professor researcher in the Quantum System Engineering Department at JBNU, South Korea. My current research involves photo-catalytical water-splitting and NH3 production using carbon-based quantum materials.
In summary, my research background encompasses a wide range of topics in materials chemistry, with expertise in the fabrication of semiconducting materials, carbon-based materials, and nanocomposites. I have worked on various energy-related applications, including solar light-driven photocatalysis, flow batteries, and gas-involved reactions.
Research Interests
Papers共 37 篇Author StatisticsCo-AuthorSimilar Experts
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Composites Part B: Engineeringpp.111416, (2024)
CHEMICAL ENGINEERING JOURNAL (2024): 148537
Composites Part B: Engineering (2024)
Lagnamayee Mohapatra, Jun Ha Park
IntechOpen eBooks (2023)
Materials Today Energy (2023): 101331-101331
Molecules (Basel, Switzerland)no. 4 (2023): 1805-1805
Qin Jingshan,Xie Tianhui,Zhou Daojin,Luo Liang,Zhang Zhengyi,Shang Zhicheng, Qingdao Institute of Nuokang-Xinqingyuan,Mohapatra Lagnamayee,Yu Jinwen,Xu Haijun,Sun Xiaoming
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