Publication Summary Description Related Collections: Recently updated collections Related Datasets: Recently updated datasets Related Projects: Recently updated projects Collection Summary Description Data and Resources Subjects Fields of Research Keywords Socio-economic Objectives Organisations & Groups Related Datasets: Recently updated datasets Related Projects: Recently updated projects Dataset Summary Description Data and Resources Subjects Fields of Research Keywords Socio-economic Objectives Organisations & Groups Related Collections: Recently updated collections Project Summary Description Data and Resources Subjects Fields of Research Keywords Socio-economic Objectives Organisations & Groups Related Collections: Recently updated collections Service Summary Description Related Datasets: Recently updated datasets Related Organisations: Related organisations JavaScript is not enabled This application requires Javascript, however the system has detected that Javascript is not enabled on the browser. Please follow these instructions on how to enable Javascript. After Javascript has been enabled, press F5 to reload this page to make this message disappear. Search Map Search Clear search Sort by: Title, Ascending Title, Descending Title, Ascending Date, Descending Date, Ascending 50 results per page 10 results per page 25 results per page 50 results per page Search returned 185 results in 4 pages. First First « Previous 1 2 3 4 » Next Last Last A Nanostructured Drug Delivery Approach (ID:1) A lipid based oral formulation has been prepared by loading glyceryl monostearate (GMS) into a porous solid 244P silica. The formulation is hypothesised to be well redispersed in the gastrointenstinal trace to ensure improved release of the model Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/a1da6a3eb1de44ddaaafcea344c17548 A Nanostructured Drug Delivery Approach (ID:5) Preparation of liposomes for drug encapsulation Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/17b12df325774fbeb67413c848fca61f A Nanostructured Drug Delivery Approach (ID:6) Sizing of single and double emulsions used in the development of encapsulated drug delivery systems Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/0176108732b642a88683b57734262bf9 A nanostructured drug delivery approach for improved colorectal cancer therapy collection A nanostructured drug delivery approach for improved colorectal cancer therapy Year Published 2017 Organisation University of South Australia Advanced Nanoscale Materials Engineered From Diatomaceous Earth Collection High mass resolution spectra were collected from the top surface of a porous alumina nanotube structure to determine the characteristic peak fragments of a loaded nanocarrier. The presence of high mass fragments were associated with the micelle Year Published 2016 Organisation University of South Australia Advanced Nanoscale Materials Engineered From Diatomaceous Earth Dataset High mass resolution spectra were collected from the top surface of a porous alumina nanotube structure to determine the characteristic peak fragments of a loaded nanocarrier. The presence of high mass fragments were associated with the micelle Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/30056f4f43104ae5818e520409b87c8f Advanced nanostructured biointerfaces for cell capture Advanced nanostructured biointerfaces for cell capture Year Published 2017 Organisation University of South Australia Advanced nanostructured biointerfaces for cell capture [IWEMC-164] mlv anionic B measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/3af2c7d37f1547ffa3c2cd994f6a0362 Advanced nanostructured biointerfaces for cell capture [IWEMC-165] mlv anionic B measurement 10 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/7b263538612a4a5a89f51d56a8bd4219 Advanced nanostructured biointerfaces for cell capture [IWEMC-166] mlv anionic B, measurement 2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/28a81f407ac644b5a6b53497a4879caa Advanced nanostructured biointerfaces for cell capture [IWEMC-167] mlv anionic B, measurement #3 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/cccf4ae8327349bf9c51106da1ddb2c0 Advanced nanostructured biointerfaces for cell capture [IWEMC-168] mlv anionic B Measurement #4 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/9203a6374dd8463d941c9e649e92e3b6 Advanced nanostructured biointerfaces for cell capture [IWEMC-169] mlv anionic B measurement #5 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/acf061d4508a4e49bcf84ae52c9a9ef3 Advanced nanostructured biointerfaces for cell capture [IWEMC-170] mlv anionic B measurement #6 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/7491c46aeaa24e2ebcc580c5e2067660 Advanced nanostructured biointerfaces for cell capture [IWEMC-171] mlv anionic B measurement #7 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/cb623b86b1d34e369b794213c10c5542 Advanced nanostructured biointerfaces for cell capture [IWEMC-172] mlv anionic B measurement #8 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/d86bc42ae9ca444696aa9b7ca89e3a91 Advanced nanostructured biointerfaces for cell capture [IWEMC-173] mlv anionic B measurement #9 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/14e91c929097416a8b28cfbdf0a0de8f Advanced nanostructured biointerfaces for cell capture [IWEMC-174] mlv anionic B measurement #9 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/a79e3ff9a28c420c9ea38a45a29c4272 Advanced nanostructured biointerfaces for cell capture [IWEMC-175] mlv anionic ismn - measurement #2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/e64cebfab42a492eb611b326683e2c72 Advanced nanostructured biointerfaces for cell capture [IWEMC-176] mlv anionic ismn - Average of measurements 1 & 2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/8e523a0d41d74127ac6ed8995b83e7fa Advanced nanostructured biointerfaces for cell capture [IWEMC-177] mlv cationic B, Measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/0a3db0736f144ef8bae403a6e80bfce6 Advanced nanostructured biointerfaces for cell capture [IWEMC-178] mlv cationic B - measurement #2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/29386dc68bb549a1a021e28aa4cc287c Advanced nanostructured biointerfaces for cell capture [IWEMC-179] mlv cationic B, Average of measurements 1 and 2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/ceec7b880c6f41128abfae0321f130e4 Advanced nanostructured biointerfaces for cell capture [IWEMC-180] mlv cationic ismn, Measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/abc61adb074246488c3295a486032bc4 Advanced nanostructured biointerfaces for cell capture [IWEMC-181] mlv cationic ismn, Measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/713de36ab31042c3a70b25a121a1f3fc Advanced nanostructured biointerfaces for cell capture [IWEMC-182] mlv cationic, average of measurements 1 & 2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/f408ee00d558476a97bee26fb3da5b6b Advanced nanostructured biointerfaces for cell capture [IWEMC-183] mlv Neutral B, Measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/c8728279910d40bfa679f6591a398505 Advanced nanostructured biointerfaces for cell capture [IWEMC-184] mlv Neutral B, Measurement #2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/73513d2603584153bcf0a77099f20ef6 Advanced nanostructured biointerfaces for cell capture [IWEMC-185] mlv neutral B, average of measurements 1 & 2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/5d2bef7dd3174c089f069a2a3be5523a Development of materials engineering solutions for treatment of Murray-Darling Basin sourced water supplies collection ToF-SIMS analysis of silane coated silica, modified for the purpose of removal of humic acid from drinking water.\n\nThe surface of these silica particles had been modified through a process of plasma polymerisation, which resulted in coating with Year Published 2017 Organisation University of South Australia Development of materials engineering solutions for treatment of Murray-Darling Basin sourced water supplies dataset ToF-SIMS analysis of silane coated silica, modified for the purpose of removal of humic acid from drinking water.\n\nThe surface of these silica particles had been modified through a process of plasma polymerisation, which resulted in coating with Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/7dc42b2de5854f86baeedd5460069fbd Energy Dissipation and Nanoscale Process Collection Imaging by ToF-SIMS of a patterned OTHS-TiO2 coating on glass capillaries and slides. The inner surface of capillary samples, as well as flat glass slides subjected to the patterned coating were analysed. Mosaic images were collected to cover Year Published 2017 Organisation University of South Australia Energy Dissipation and Nanoscale Process Dataset Imaging by ToF-SIMS of a patterned OTHS-TiO2 coating on glass capillaries and slides. The inner surface of capillary samples, as well as flat glass slides subjected to the patterned coating were analysed. Mosaic images were collected to cover Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/7887ee87782f42c18f410035e1054a28 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs Year Published 2017 Organisation University of South Australia Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-186] Sold SMEDDS Aerosil, Measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/86eff5c774e940d2a70abfe0ed00a41e Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-187] Sold SMEDDS Aerosil, Measurement #2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/cba63cd383ec433da5825db8719769e6 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-188] Sold SMEDDS Aerosil, measurement #3 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/eb8b43365a7a4c48bd155249c3b88496 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-189] Sold SMEDDS Aerosil, Measurement #4 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/d62d4e5156604b51b3154e9c0c332856 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-190] Sold SMEDDS Aerosil, Measurement #5 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/1225e65aac78476083611ac2b5dd7a02 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-191] Sold SMEDDS Aerosil, Measurement #6 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/af5b89933bce4d9e9276bd4099e7bd7a Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-192] Sold SMEDDS Aerosil, Measurement #7 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/f6331e0fdc504f799392536b9379631d Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-193] Sold SMEDDS Aerosil, Measurement #8 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/d13cdc56cc2d42778a818b2cad3daefa Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-194] Sold SMEDDS Aerosil, Measurement #9 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/3fe47547a45746098e8b9657dae38f93 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-195] Sold SMEDDS Aerosil Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/ca805d4e56d344eb8479345b2b2c12d1 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-196] Sold SMEDDS Aerosil, measurement #10 (30 minutes) Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/386fa378644647b1b28f0ee3df6dbeff Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-197] Sold SMEDDS Aerosil, Measurement #12 (31 minutes) Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/3f04bef68bc94429ab626927603ba907 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-198] Sold SLH Aerosil, measurement #1 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/10f42199f03a4ecb8eb2108c8db1f158 Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-199] Sold SLH Aerosil, Measurement #2 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/33b1887402c040f3931565b715be423d Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-200] Sold SLH Aerosil, measurement #3 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/35d417adfc2a40e3ad5714572918f68f Lipoceramic Technologies: a Solution to Low and Variable Bioavailability of Poorly Soluble Anti-Inflammatory Drugs [IWEMC-201] Sold SLH Aerosil, measurement #4 Year Published 2017 Organisation University of South Australia Identifier https://researchoutputs.unisa.edu.au/11541.1/d094f66ac5ba4623a53db0c3b585bca7 Search returned 185 results in 4 pages. 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