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- Fabrication and compatibility of nanostructured materials for biological and medical applications
- Nanomaterials, including nanotubes, fullerenes, nano-particles, quantum dots, etc.
- Engineered surfaces using assembled molecular arrays for guided interactions between biomolecules and cells
- Cell-cell interaction and cell mechanics at the nanoscale
- Tissue, cell, and genetic engineering at the nanoscale or involving nanomedical tools
- Nanotechnology based diagnostic tools and analytical techniques,
including nanoimaging of biomolecules, nanorobotic based
bio-manipulation, biosensors, molecular sensors, nanoprobes, and
biochips
- Applications of nano and molecular technologies in the diagnosis, prevention, therapy, and treatment of disease
- Measurement and sensing of single cells, cell systems and biomolecules by optical, chemical or physical methods
- Molecular electronics and nanoscale diagnostic devices
- Bioinformatics, biocomputing and molecular computing
- Device miniaturization, including bioMEMS, micro/nano fluidics, nano/molecular sensors, devices, and systems
- Implanted micro/nano devices for prevention and treatment of disease
- Drug, protein, or gene delivery, transport, and targeting using nanoscale particles, devices, and systems
- Nanoscale genomic and proteomic research
- Clinical and pre-clinical testing of novel nanomedical devices and systems
- Specific focus on development and clinical use from the perspectives of safety, efficacy, economics, and ultimate patient uptake