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, Descending Title, Descending Title, Ascending Date, Descending Date, Ascending 10 results per page 10 results per page 25 results per page 50 results per page Search returned 802 results in 81 pages. First First « Previous 77 78 79 80 81 » Next Last Last 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-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-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-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-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-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 Advanced nanostructured biointerfaces for cell capture Year Published 2017 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 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 Nature, through evolution has elegantly solved problem of fabrication of complex 3-D structures with well-defined nanoscale features. Diatoms, single cell algae are most extraordinary example of these structures. This research is based on the idea Year Published 2017 Organisation University of South Australia Search returned 802 results in 81 pages. First First « Previous 77 78 79 80 81 » Next Last Last