| In-vitro bio-corrosion behavior of friction stir additively manufactured AZ31B magnesium alloy-hydroxyapatite composites YH Ho, SS Joshi, TC Wu, CM Hung, NJ Ho, NB Dahotre Materials Science and Engineering: C 109, 110632, 2020 | 87 | 2020 |
| In-vitro biomineralization and biocompatibility of friction stir additively manufactured AZ31B magnesium alloy-hydroxyapatite composites YH Ho, K Man, SS Joshi, MV Pantawane, TC Wu, Y Yang, NB Dahotre Bioactive materials 5 (4), 891-901, 2020 | 78 | 2020 |
| Microstructure and corrosion behavior of laser surface-treated AZ31B Mg bio-implant material TC Wu Lasers in Medical Science 32 (4), 797-803, 2017 | 51 | 2017 |
| Microstructure and surface texture driven improvement in in-vitro response of laser surface processed AZ31B magnesium alloy TC Wu, SS Joshi, YH Ho, MV Pantawane, S Sinha, NB Dahotre Journal of Magnesium and Alloys 9 (4), 1406-1418, 2021 | 35 | 2021 |
| Optimization of biocompatibility in a laser surface treated Mg-AZ31B alloy JZ Lu, SS Joshi, MV Pantawane, YH Ho, TC Wu, NB Dahotre Materials Science and Engineering: C 105, 110028, 2019 | 29 | 2019 |
| Laser patterned hydroxyapatite surfaces on AZ31b magnesium alloy for consumable implant applications N Kalakuntla, N Bhatia, S Patel, SS Joshi, TC Wu, YH Ho, NB Dahotre Materialia 11, 100693, 2020 | 13 | 2020 |
| In-vitro biomineralization and biocompatibility of friction stir additively manufactured AZ31B magnesium alloy-hydroxyapatite composites. Bioact Mater. 2020; 5: 891–901. doi … YH Ho, K Man, SS Joshi, MV Pantawane, TC Wu, Y Yang, NB Dahotre J. BIOACTMAT 9, 2020 | 5 | 2020 |
| In-vitro biomineralization and biocompatibility of friction stir additively manufactured AZ31B magnesium alloyhydroxyapatite composites, Bioact. Mater. 5(2020) 891–901 YH Ho, K Man, SS Joshi, MV Pantawane, TC Wu, Y Yang, NB Dahotre | 5 | |
| The immobilization of Cr(salen) complexes via {Fe4(OH)3(HPO4)2(PO4)3][H3N(CH2)3NH3]2 X H2O(x~9) encapsulation in intraframework TC Wu National Central University, 2004 | | 2004 |