Patrick Dangla | Engineering | Research Excellence Award

Published on by Research Data Analysis

Dr. Patrick Dangla | Engineering | Research Excellence Award

 Ecole nationale des ponts et chaussées | France

Dr. Patrick Dangla is a senior researcher and internationally recognized expert in civil and geotechnical engineering, with strong academic links to Southeast University and Tsinghua University. He obtained his Bachelor’s degree in Civil Engineering in 1982, a PhD in Civil Engineering from École des Ponts ParisTech in 1989, and completed his Habilitation in Civil Engineering in 2000, focusing on energy-based and numerical approaches for unsaturated porous media. His academic and research career spans more than three decades, during which he has led and contributed to major national and international research projects on CO₂ geological storage, salt crystallization, gas-hydrate-bearing sediments, and accelerated carbonation of recycled concrete. His research interests include poromechanics, coupled hydro-mechanical and chemo-mechanical processes, durability of cementitious materials, carbonation, sulfate attack, reactive transport, and multi-scale modeling of porous media. Dr. Dangla has supervised or co-supervised more than 25 PhD candidates and actively collaborates with leading institutions and industry partners, including Electricité de France and Tsinghua University. He has authored 121 scientific documents, receiving 6,061 citations from 4,940 documents, with an h-index of 36, reflecting his strong scientific impact. Through extensive publications, project leadership, and doctoral mentoring, Dr. Dangla has made lasting contributions to sustainable construction materials, energy-related geomechanics, and advanced modeling in civil engineering.

View Scopus Profile

Featured Publications

Lan Xie | COVID-19 Analysis | Research Excellence Award

Published on by Research Data Analysis

Assoc. Prof. Dr. Lan Xie | COVID-19 Analysis | Research Excellence Award

Tsinghua University | China

Assoc. Prof. Dr. Lan Xie is a leading researcher in drug discovery and traditional Chinese medicine (TCM) integration with modern biomedical technologies. She earned her M.D. in Clinical Medicine from Peking University and a Ph.D. in Biology from Tsinghua University. Dr. Xie completed postdoctoral training at Tsinghua University and a visiting scholar program at the University of Pittsburgh. She has held faculty positions at Tsinghua University since 2014, currently serving as Associate Professor at the School of Basic Medical Sciences. Her research focuses on combining TCM with systems biology, multi-omics, and artificial intelligence to develop novel therapeutic strategies. She pioneered the Molecular Materia Medica database and an intelligent TCM formulation algorithm leveraging gene expression profiles and dysregulated disease pathways. Her work has been recognized with numerous awards, including the Huaxia Medical Science and Technology Award, International Award for Contribution to Chinese Medicine, and multiple Tsinghua University teaching excellence awards. Dr. Xie’s research achievements encompass high-throughput TCM bioactive component screening, single-cell omics-based mechanistic studies, and pathway-guided intelligent drug formulation. With 1,716 citations by 47 documents, 47 publications, and an h-index of 24, her contributions continue to advance modern medicine by bridging traditional knowledge and cutting-edge technology.

Profile : Scopus

Featured Publications

“A universal gene expression signature-based strategy for the high-throughput discovery of anti-inflammatory drugs.” Inflammation Research. 2025.

“Identification of the fruit of Brucea javanica as an anti-liver fibrosis agent working via SMAD2/SMAD3 and JAK1/STAT3 signaling pathways.” Journal of Pharmaceutical Analysis. 2025.

“Pulsatilla chinensis functions as a novel antihyperlipidemic agent by upregulating LDLR in an ERK-dependent manner.” Chinese Medicine United Kingdom. 2024.

“Mechanism study of Xiaoyao San against nonalcoholic steatohepatitis-related liver fibrosis based on a combined strategy of transcriptome analysis and network pharmacology.” Pharmaceuticals. 2024.

Zhifeng Qin |  Engineering | Best Researcher Award

Published on by Research Data Analysis

Prof. Zhifeng Qin |  Engineering | Best Researcher Award

Taiyuan University of Technology | China

Prof. Zhifeng Qin has been a member of the State Key Laboratory of Coal‑Based Clean and Efficient Utilization of Energy at Taiyuan University of Technology, and was promoted to Associate Professor in 2021. From 2019 to 2022 he completed post‑doctoral research at Tsinghua University and the Shanxi Provincial Environmental Planning Institute, focusing on both fundamental and applied aspects of gas desulfurization and purification. His interests include hydrodesulfurization and hydrolysis of organic sulfur compounds; H₂S adsorption materials; iron‑based wet‑oxidation catalytic removal of hydrogen sulfide; and alcohol‑amine methods for sulfur‑compound removal from coke‑oven gas. He has led or participated in over ten research projects supported by the National Natural Science Foundation of China, a Central Government‑Guided Local Science & Technology Development Fund, major Shanxi provincial science‑technology initiatives, an Excellent Talent Innovation Programme in Shanxi, a Lvliang City university–local government cooperation R&D programme, and numerous industrial horizontal projects. He has authored more than ten peer‑reviewed articles in journals such as Applied Catalysis B: Environmental, Energy Conversion and Management, Catalysis Letters, Chemical Engineering Progress and Chemical Engineering Journal. He has filed over 28 invention‑patent applications (20 granted) and contributed to the development of four industry standards. His metrics currently stand at an h‑index of approximately 10, with more than 23 published documents and over 887 citations, reflecting his sustained impact in the field. He remains committed to delivering high‑efficiency desulfurization solutions and technical support to industries including coking, fertilizer, steel, coal‑bed methane, coal gas, natural gas and biogas, with the goal of driving innovation in gas‑purification technologies and advancing clean-energy development in coal‑based systems.

Profile : Scopus

Featured Publications

(2025). Correlation between alkaline characteristics and catalytic performance of K₂CO₃/Al₂O₃ in carbonyl sulfide hydrolysis. Results in Chemistry.

 (2025). Bi‑reforming of biogas to metgas (CO‑H₂) over β‑cyclodextrin modified hydrotalcite‑derived oxides supported robust Ni nanocatalysts. Separation and Purification Technology.