Yongjin Lee
14 Papers
Yongjin Lee is an academic researcher. The author has contributed to research in topics: Chemistry & Zeolite. The author has an hindex of 1, co-authored 5 publications.
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Papers
Thermodynamic study of mesitylene + alkanol mixtures: Insights into molecular interactions
Sweety Verma,Suman Gahlyan,Payal Bhagat,Manju Rani,Mamta Bhagat,Seetu Rana,V. K. Rattan,Yongjin Lee,Sanjeev Maken +8 more
TL;DR: In this article , the excess molar volume (VmE), excess isentropic compressibility (κsE), deviation in ultrasonic speed (Δu), and refractive index (nD) were analyzed for mixtures of mesitylene and alkanol to interpret their intermolecular interactions.
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Bottom-up synthesis of two-dimensional carbon with vertically aligned ordered micropores for ultrafast nanofiltration
TL;DR: In this paper , a zeolite-templated bottom-up synthesis of ordered microporous 2D carbon is reported, which is made of an extremely thin polyaromatic backbone and contains well-defined vertically aligned micropores (0.69 nm in diameter).
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Thermodynamic and molecular simulation analysis of molecular interactions between methyl 2–hydroxyisobutyrate + water or n–alkanol (C1–C2) mixtures
Sweety Verma,Songhyun Kim,Sanjeev Maken,Yongjin Lee +3 more
TL;DR: This study examines thermodynamic and molecular interactions in methyl 2-hydroxyisobutyrate (HBM) mixtures with water or n-alkanol (C1-C2) at various temperatures, using experimental data and molecular dynamics simulations to model excess molar volume, viscosity, and intermolecular interactions.
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Design of Olefin-Phobic Zeolites for Efficient Ethane and Ethylene Separation
TL;DR: In this article , the effects of chemical composition (Si/Al ratio), silanol defect, and pore topology (BEA, CHA, and MFI) of zeolites were investigated to develop efficient "olefin-phobic" adsorbents.
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Hierarchical LTL Zeolite as an Efficient and Sustainable Solid Acid Catalyst for Replacing HCl in the Production of Polyurethane Intermediates.
TL;DR: In this article , the meso-/microporous hierarchical LTL zeolite exhibits unprecedentedly high activity, selectivity, and stability for methylenedianiline (MDA) synthesis.
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