Select a letter below to browse by last name or type
0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Showing results 358 to 377 of 623 < previous   next >
Issue DateTitleAuthor(s)
22-Jan-2014Injectable hydrogel incorporating with nanoyarn for bone regenerationLiu, W.; Zhan, J.; Su, Y.; Wu, T.; Ramakrishna, S. ; Liao, S.; Mo, X.
Dec-2011Injectable polymeric materials and evaluation of their in vivo functional assessment in cardiac tissue engineeringBalasubramanian, P.; Prabhakaran, M.P. ; Al Masri, A.A.; Ramakrishna, S. 
17-Aug-2012Integrated Biomaterials for Biomedical TechnologyRamalingam, M.; Tiwari, A.; Ramakrishna, S. ; Kobayashi, H.
4-Apr-2012Integrated Biomaterials in Tissue EngineeringRamalingam, M.; Haidar, Z.; Ramakrishna, S. ; Kobayashi, H.; Haikel, Y.
Jan-2008Interaction of cells and nanofiber scaffolds in tissue engineeringVenugopal, J. ; Low, S.; Choon, A.T.; Ramakrishna, S. 
Jan-2014Interaction of Schwann cells with laminin encapsulated PLCL core-shell nanofibers for nerve tissue engineeringKijeńska, E.; Prabhakaran, M.P. ; Swieszkowski, W.; Kurzydlowski, K.J.; Ramakrishna, S. 
2001Investigating the effects of anisotropy of knitted fabric reinforced polymer (KFRP) compositeLim, C.T. ; Ramakrishna, S. ; Ong, L.B.; Huang, Z.M. 
1999Knitted fabric composite sheet forming simulation considering fabric realignmentLim, T.C. ; Fujihara, M.; Zako, M.; Ramakrishna, S. ; Shang, H.M. 
1998Knitted fabric reinforced flexible composite materialRamakrishna, S. ; Tang, Z.G. ; Teoh, S.H. ; Tsai, K.T.
21-Jan-2012Long term cycling studies of electrospun TiO 2 nanostructures and their composites with MWCNTs for rechargeable Li-ion batteriesZhu, P.; Wu, Y.; Reddy, M.V. ; Sreekumaran Nair, A. ; Chowdari, B.V.R. ; Ramakrishna, S. 
27-Nov-2013Long-term cycling studies on electrospun carbon nanofibers as anode material for lithium ion batteriesWu, Y.; Reddy, M.V. ; Chowdari, B.V.R. ; Ramakrishna, S. 
6-Sep-2008Long-term viability of coronary artery smooth muscle cells on poly(L-lactide-co-ε-caprolactone) nanofibrous scaffold indicates its potential for blood vessel tissue engineeringDong, Y. ; Yong, T. ; Liao, S. ; Chan, C.K. ; Ramakrishna, S. 
Jul-2007Looking beyond carbon nanotubes: Polypeptide nanotubes as alternatives?Praveena, G.; Kolandaivel, P.; Santhanamoorthi, N.; Renugopalakrishnan, V.; Ramakrishna, S. 
2002Low velocity impact studies on a 4-ply knitted Kevlar fabric reinforced epoxy compositeLim, C.T. ; Tan, V.B.C. ; Ramakrishna, S. ; Lee, J.B.K.
2011Low-cost fabrication of TiO2 nanorod photoelectrode for dye-sensitized solar cell applicationZhang, W. ; Zhu, R. ; Liu, B. ; Ramakrishna, S. 
19-May-1999Machinability study of carbon fiber reinforced compositeRahman, M. ; Ramakrishna, S. ; Prakash, J.R.S.; Tan, D.C.G.
1999Machinability study of carbon/PEEK compositesRahman, M. ; Ramakrishna, S. ; Thoo, H.C.
12-Feb-2014Maghemite nanoparticles on electrospun CNFs template as prospective lithium-ion battery anodeWu, Y.; Zhu, P.; Reddy, M.V. ; Chowdari, B.V.R. ; Ramakrishna, S. 
2-Sep-2012Magnesium oxide nanotubes: Synthesis, characterization and application as efficient recyclable catalyst for pyrazolyl 1,4-dihydropyridine derivativesMurugan, R.; Ramamoorthy, K.; Sundarrajan, S. ; Ramakrishna, S. 
2008Manufacture of multiple-channel porous biodegradable conduits for spinal cord regenerationHe, L. ; Quan, D.; Liao, K.; Lu, J.; Liao, S. ; Ramakrishna, S.