Ms Liu Xiaolu, North China Electric Power University, China
π Ms. Liu Xiaolu is a dedicated researcher pursuing her Ph.D. at North China Electric Power University (2022βpresent), after earning her Masterβs (2019β2022) and Bachelorβs (2015β2019) degrees from the same university and Yanshan University, respectively. π§ͺ Her research focuses on functional porous nanomaterials and radionuclide separation. π She has authored 17 papers in prestigious journals like Nat. Commun., Adv. Sci., and Langmuir. π Liu actively participates in global conferences, including ACS Spring 2024. Her groundbreaking work on MOFs, COFs, and electrocatalysis is shaping innovations in energy and environmental applications. β‘π±
Publication Profile
Scopus
Education
Ms. Liu Xiaolu π began her academic journey at Yanshan University, earning her Bachelor’s degree between September 2015 and June 2019 π. Driven by a passion for further knowledge, she pursued her Masterβs degree at North China Electric Power University from September 2019 to June 2022 β‘. Continuing her academic excellence, she is currently a dedicated Doctoral candidate at the same university since September 2022 π. Her commitment to education and research showcases her strong determination and academic growth π.
Research Achievement
Ms. Liu Xiaolu is a prolific researcher with 17 first-author publications in prestigious journals like Nature Communications π, Advanced Science π, Langmuir π, and Innovation π‘. Her representative works include papers in Nat. Commun. (2024, 15, 7736), Adv. Sci. (2022, 9, 2201735; 2023, 10, 2303536), J. Mater. Chem. A (2021, 9, 21051-6), and Crit. Rev. Env. Sci. Tec. (2021, 51, 751-790; 2023, 53, 1289-1309) π. She has significantly contributed to Environmental Pollution πΏ, Sci. China. Chem. π§ͺ, and EEH π¬. Her research showcases innovation and scientific excellence, reflecting her dedication to impactful discoveries. β¨
Academic Conference
Ms. Liu Xiaolu has actively participated in several prestigious conferences, showcasing her expertise in environmental and radiochemistry. π She attended the 1st Conference of Carbon Research in Guangzhou, China (March 24β26, 2023) and the 12th National Conference on Environmental Chemistry in Wuhan, China (November 17β21, 2023). π§ͺ Additionally, she contributed to the Conference of National Radiochemistry Development Strategy and Academic Exchange in Nanchang (October 20β23, 2023). βοΈ Expanding her global reach, Ms. Liu joined the ACS Spring 2024 Meeting held online from New Orleans (March 17β21, 2024), reflecting her dedication to scientific growth and collaboration. π
Research Interest
Ms. Liu Xiaolu specializes in the design and synthesis of functional porous nanomaterials π§ͺ, focusing on creating advanced materials with unique structures and properties. Her research also delves into the separation and extraction of radionuclides βοΈ, aiming to enhance techniques for environmental protection and nuclear waste management π. By combining innovative nanotechnology with efficient separation methods, she contributes to sustainable solutions in energy and environmental sciences π‘. Her work bridges the gap between material science and nuclear chemistry, paving the way for safer and cleaner technologies in the future π.
Research Focus
Ms. Liu Xiaolu’s research focuses on advanced materials like Metal-Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs), and their derivatives for energy and environmental applications π±β‘. Her work explores innovative approaches to electrocatalytic COβ reduction, enhancing photocatalytic performance, and piezocatalytic techniques for pollutant degradation ππ¬. By modulating the coordination environment of atomically dispersed metals, she aims to improve efficiency in low-overpotential and industrial-scale processes β‘βοΈ. Her research contributes to sustainable solutions for clean energy and environmental remediation, addressing global challenges in pollution control and renewable energy ππ.
Publication Top Notes
Emerging MOFs, COFs, and their derivatives for energy and environmental applications
Modulating the Coordination Environment of Atomically Dispersed Nickel for Efficient Electrocatalytic CO2Β Reduction at Low Overpotentials and Industrial Current Densities
Rational Design of 3D Space Connected DonorβAcceptor System in Covalent Organic Frameworks for Enhanced Photocatalytic Performance
Piezocatalytic techniques and materials for degradation of organic pollutants from aqueous solution
Conclusion
Ms. Liu Xiaolu is a distinguished researcher known for her outstanding publication record π, innovative research in environmental and energy applications πβ‘, and active participation in international conferences ππ€. Her groundbreaking work contributes significantly to sustainable solutions, addressing global environmental challenges with creativity and expertise π±π¬. Ms. Liuβs dedication to advancing knowledge and her impactful presence in the research community make her a highly suitable candidate for the Best Researcher Award ππ. Her passion for scientific excellence and commitment to global sustainability continue to inspire peers and future researchers alike ππ‘.