| Ceramic processing and sintering MN Rahaman CRC press, 2017 | 3207 | 2017 |
| Bioactive glass in tissue engineering MN Rahaman, DE Day, BS Bal, Q Fu, SB Jung, LF Bonewald, AP Tomsia Acta biomaterialia 7 (6), 2355-2373, 2011 | 2093 | 2011 |
| Bioactive glass scaffolds for bone tissue engineering: state of the art and future perspectives Q Fu, E Saiz, MN Rahaman, AP Tomsia Materials science and engineering: C 31 (7), 1245-1256, 2011 | 841 | 2011 |
| Sintering of ceramics MN Rahaman CRC press, 2007 | 824 | 2007 |
| Ceramic processing MN Rahaman CRC press, 2017 | 558 | 2017 |
| Kinetics and mechanisms of the conversion of silicate (45S5), borate, and borosilicate glasses to hydroxyapatite in dilute phosphate solutions W Huang, DE Day, K Kittiratanapiboon, MN Rahaman Journal of Materials Science: Materials in Medicine 17, 583-596, 2006 | 555 | 2006 |
| Silicate, borosilicate, and borate bioactive glass scaffolds with controllable degradation rate for bone tissue engineering applications. I. Preparation and in vitro degradation Q Fu, MN Rahaman, H Fu, X Liu J Biomed Mater Res Part A 95 (1), 164-171, 2010 | 534 | 2010 |
| Silicate, borosilicate, and borate bioactive glass scaffolds with controllable degradation rate for bone tissue engineering applications. II. In vitro and in vivo biological … Q Fu, MN Rahaman, BS Bal, LF Bonewald, RF Brown Journal of Biomedical Materials Research A 95 (1), 172-179, 2010 | 534 | 2010 |
| Ceramics for prosthetic hip and knee joint replacement MN Rahaman, A Yao, BS Bal, JP Garino, MD Ries Journal of the American Ceramic Society 90 (7), 1965-1988, 2007 | 423 | 2007 |
| Wound dressings composed of copper-doped borate bioactive glass microfibers stimulate angiogenesis and heal full-thickness skin defects in a rodent model S Zhao, L Li, H Wang, Y Zhang, X Cheng, N Zhou, MN Rahaman, Z Liu, ... Biomaterials 53, 379-391, 2015 | 404 | 2015 |
| In Vitro Bioactive Characteristics of Borate‐Based Glasses with Controllable Degradation Behavior A Yao, D Wang, W Huang, Q Fu, MN Rahaman, DE Day Journal of the American Ceramic Society 90 (1), 303-306, 2007 | 361 | 2007 |
| Orthopedic applications of silicon nitride ceramics BS Bal, MN Rahaman Acta biomaterialia 8 (8), 2889-2898, 2012 | 357 | 2012 |
| Mechanical and in vitro performance of 13–93 bioactive glass scaffolds prepared by a polymer foam replication technique Q Fu, MN Rahaman, BS Bal, RF Brown, DE Day Acta biomaterialia 4 (6), 1854-1864, 2008 | 355 | 2008 |
| Hydrothermal synthesis and sintering of ultrafine CeO2 powders YC Zhou, MN Rahaman Journal of materials research 8 (7), 1680-1686, 1993 | 331 | 1993 |
| Anti-infective and osteointegration properties of silicon nitride, poly (ether ether ketone), and titanium implants TJ Webster, AA Patel, MN Rahaman, BS Bal Acta biomaterialia 8 (12), 4447-4454, 2012 | 269 | 2012 |
| Toward strong and tough glass and ceramic scaffolds for bone repair Q Fu, E Saiz, MN Rahaman, AP Tomsia Advanced functional materials 23 (44), 5461-5476, 2013 | 250 | 2013 |
| Stem cell‐based composite tissue constructs for regenerative medicine MN Rahaman, JJ Mao Biotechnology and bioengineering 91 (3), 261-284, 2005 | 234 | 2005 |
| Ceramics and ceramic coatings in orthopaedics BJ McEntire, BS Bal, MN Rahaman, J Chevalier, G Pezzotti Journal of the European Ceramic Society 35 (16), 4327-4369, 2015 | 232 | 2015 |
| Mechanical properties of bioactive glass (13-93) scaffolds fabricated by robotic deposition for structural bone repair X Liu, MN Rahaman, GE Hilmas, BS Bal Acta biomaterialia 9 (6), 7025-7034, 2013 | 228 | 2013 |
| 4.1 sintering of ceramics LC De Jonghe, MN Rahaman Handbook of advanced ceramics: materials, applications, processing and …, 2003 | 218 | 2003 |
