Electrodeformation of White Blood Cells Enriched with Gold Nanoparticles
Hallfors, N.G.; Teo, J.C.M.; Bertone, P.M..; Joshi, C.P.; Orozaliev, A.; Martin, M.N.; Iaskovic, A.I. . Electrodeformation of white blood cells enriched with gold nanoparticles.Processes.2022,10, 134.
Thermal Stability and Plasmonic Photothermal Conversion of Surface-Modified Solar Nanofluids: Comparing Prolonged and Cyclic Thermal Treatments.
Sharaf, O.Z.; Rizk, N.; Munro, C.J.; Joshi, C.P.; Waheed, W; Abu-Nada, E.; Alazam, A.; Martin, M.N. Thermal stability and plasmonic photothermal conversion of surface-modified solar nanofluids: comparing prolonged and cyclic thermal treatments. Energy Convers. Manage.2021, 244, 114463.
Radiation Stability and Photothermal Performance of Surface-Functionalized Plasmonic Nanofluids for Direct-Absorption Solar Applications
Sharaf, O.Z.; Rizk, N.; Munro, C.J.; Joshi, C.P.; Anjum, D.H..; Abu-Nada, E.; Martin, M.N.; Alazam, A. Radiation stability and photothermal performance of surface-functionalized plasmonic nanofluids for direct-absorption solar applications. Solar Energy Materials and Solar Cells.2021, 227, 111115.
Ultrastable Plasmonic Nanofluids in Optimized Direct Absorption Solar Collectors.
Sharaf, O.Z.; Rizk, N.; Joshi, C.P.; Abi Jaoude, M.; Al-Khateeb, A.N.; Kyritsis, D.C.; Abu-Nada, E.; Martin, M.N. Ultrastable plasmonic nanofluids in optimized direct absorption solar collectors. Energy Convers. Manage.2019, 199, 112010.
A Spatiotemporal Characterization Method for the Dynamic Cytoskeleton
Alhussein, G.; Shanti, A.; Farhat, I.A.H.; Timraz, S.B.H.; Alwahab, N.S.A.; Pearson, Y.E.; Martin, M.N.; Christoforou, N.; Teo, J.C.M. A spatiotemporal characterization method for the dynamic cytoskeleton. Cytoskeleton.2016, 73, 221.
Dissolution, Agglomerate Morphology, and Stability Limits of Protein-Coated Silver Nanoparticles