02066cam a2200397 i 450000100070000000500170000700600190002400700150004300800410005804000260009908200210012509000170014610000330016324502640019626000270046026400680048726400120055530000520056733600210061933700230064033800320066349000420069552005440073753000220128153800290130365000250133265000150135770000280137270000390140070000320143970000290147170000310150070000260153185600580155785600530161574752820260121085255.0m     o  d |      cr cnu||||||||260120s2024    my       b    001 1 eng d  aSUTSbengcSUTSdSUTS00a660.2842/OBE223  a660.2842/OBE1 aObek, Christine Anneauthor.14aEmpirical correlations of drug-and plant-based bioactive compound solubility in supercritical CO2 :bA comparative evaluation study /cChristine Ann Obek, Agus Saptoro, Angnes Ngieng Tze Tiong, Zeinab Abbas Jawad, Zong Yang Kong, Suryadi Ismadji, Jaka Sunarso  aFluid Phase Equilibria 1aSarawak, Malaysia :bSwinburne University of Technology,c2024. 4c©2024.  a1 online resources (11 pages) :billustrations.  atext2rdacontent  acomputer2rdamedia  aonline resource2rdacarrier0 aVolume 580 (2024), Article no. 1140610 aThis review compiles and critically evaluates solubility data for 33 drug‑based and 40 plant‑based bioactive compounds in supercritical carbon dioxide. A total of 26 density‑based empirical models are compared using absolute average relative deviation (AARD) to assess predictive performance. The study identifies the Belghait et al. eight‑parameter model as the most accurate overall and highlights the influence of pressure, temperature, molecular structure, and complexity on solubility behaviour in supercritical CO₂ systems.  aIssued in online.  aMode of access: Internet 0aSupercritical fluids 0aSolubility10aSaptoro, Agus,eauthor.10aNgieng, Angnes Tze Tiong,eauthor.10aZeinab Abbas Jawadeauthor.10aKong, Zong Yang,eauthor10aIsmadji, Suryadi,eauthor.10aJaka Sunarsoeauthor.7 3DOI Linkuhttps://doi.org/10.1016/j.fluid.2024.1140617 3Copy DOI link and search viauhttps://libkey.io/