Molecular Engineering of Biological and Chemical Systems (MEBCS)
The fourth SMA Programme on Molecular Engineering of Biological and Chemical Systems or MEBCS is a unique multidisciplinary programme, which offers cutting-edge research and advanced coursework that combine a fundamental understanding of biological and chemical sciences with the engineering and design of products and processes. The MEBCS Programme offers two graduate courses of study leading to the Professional Masterâ€™s (S.M.) and the Research Doctorate (Ph.D.) degrees. It seeks to draw top-notch local and international students with background in chemical engineering, bioengineering, physical chemistry, biophysics, and/or materials engineering.
The innovative and rigorous curriculum consists of nine courses covering topics in the areas of biotechnology and bioprocess engineering, functional materials and nanotechnology, as well as advanced chemical engineering subjects. There are opportunities to study at MIT during the Immersion Programme, and to undertake research for one semester at MIT for the Ph.D. candidates. The S.M. students carry out Industrial Immersion projects at host companies to develop problem solving and communication skills, leadership and resource management. Six research thrusts are developed through multiple collaborations between SMA faculty fellows from NTU, NUS and MIT. These are in the areas of materials design and applications, structured fluid, surface/interface functionalization, biological functionality, biotechnology and biochemical processes.
The programme seeks to train high-level professionals and researchers for leadership positions in industries, research centres and academic institutions. With the unique molecular engineering background, MEBCS graduates will be particularly well poised to contribute towards the knowledge-driven fine chemicals and life sciences industries slated for global economic growth in the new millennium.
(2006-01)We report herewith the preparation of SnO₂ nanotubes with very good shape and size control, and with and without a carbon nanotube overlayer, The SnO₂-core/carbon-shell nanotubes are excellent reversible Li ion storage ...
(2006-01)A targeted, stimuli-responsive, polymeric drug delivery vehicle has been developed to help alleviate the severe side-effects caused by narrow therapeutic window drugs. Doxorubicin, a commonly used chemotherapeutic agent ...
(2006-01)A series of well-defined stimuli responsive water soluble fullerene (C₆₀) containing polymers such as polyelectrolytes (polyacids and polybases), polyampholyte and polyzwitterionic polymers were synthesized using atom ...