We are actively involved in the following research areas:
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Applied Surface Science, 2022, 596, 153618.
DFT provides valuable information about the geometric and electronic structure of nanomaterials and drugs, as well as their interactions, allowing for the prediction of the most favorable drug delivery systems.
Science of the Total Environment, 2022, 824, 153858.
The sensing of nanomaterials using density functional theory (DFT) involves the theoretical study of the interactions between nanomaterials and target analytes.
Materials Science in Semiconductor Processing, 2023, 153, 107164.
Catalysis
Single atom catalysis refers to the use of isolated individual atoms as catalysts, instead of traditional catalysts which are often composed of clusters of metal atoms. The goal of single atom catalysis is to achieve highly active and selective catalytic reactions by utilizing the unique properties of single atoms.
Chemosphere, 2022, 305, 135480.
Membrane separation techniques have recently emerged as an alternative to traditional separation methods to improve biofuels' separation efficiency. The membrane-based pervaporation method is the most desired process with low energy cost, ease of operation, and high efficiency. Our lab is involved in the synthesis and application of ionic liquids and deep eutectic solvents and their applications in membrane technology.
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