The role of engineers in meeting 21st Century Societal Challenges, Part II: Education and professional development Roundtable 25 March 2008 Pages: 12 - 13
Environmental, health, and safety considerations for producing nanomaterials Todd M. Osman Overview 25 March 2008 Pages: 14 - 17
Advances in biological materials and biomaterials science M. A. MeyersA. M. Hodge Commentary 25 March 2008 Pages: 18 - 18
The cutting edge: Sharp biological materials M. A. MeyersA. Y. M. LinS. Georgalis Overview 25 March 2008 Pages: 19 - 24
Nanoporous materials for biomedical devices Shashishekar P. AdigaLarry A. CurtissRoger J. Narayan Overview 25 March 2008 Pages: 26 - 32
Nanoceria as antioxidant: Synthesis and biomedical applications A. S. KarakotiN. A. Monteiro-RiviereS. Seal Overview 25 March 2008 Pages: 33 - 37
Hydroxyapatite-reinforced polymer biocomposites for synthetic bone substitutes Ryan K. RoederGabriel L. ConverseWeimin Yue Overview 25 March 2008 Pages: 38 - 45
Biomedical applications of titanium and its alloys C. N. EliasJ. H. C. LimaM. A. Meyers Overview 25 March 2008 Pages: 46 - 49
Materials informatics part I: A diversity of issues Krishna Rajan Commentary 25 March 2008 Pages: 50 - 50
Materials informatics: Facilitating the integration of data-driven materials research with education L. M. BartoloS. C. GlotzerK. Rajan Overview 25 March 2008 Pages: 51 - 52
Learning from systems biology: An “Omics” approach to materials design Krishna Rajan Overview 25 March 2008 Pages: 53 - 55
Informatics for combinatorial materials science S. BroderickC. SuhK. Rajan Overview 25 March 2008 Pages: 56 - 59
Scaling laws as a tool of materials informatics Patricio F. MendezReinhard FurrerFernando Ordóñez Overview 25 March 2008 Pages: 60 - 66
Visualizing the metallic bond M. E. EberhartT. E. JonesM. A. Sauer Overview 25 March 2008 Pages: 67 - 72
New programs promote STEM education for young women Kelly Roncone Zappas End Notes 25 March 2008 Pages: 80 - 80