NanoScienceWorks

Researchers at Brown University have created a new type of dye-free optical probe that can directly sense naturally occurring neural activity by imbedding gold nanoparticles into tissue culture and thus measure the electrical activity of live neurons.

Dr. Hornyak's experience in nanoscience and technology R&D spans 17 years. Diverse areas of expertise include carbon nanotube synthesis & thermodynamics, nanometal composite materials fabrication, characterization & optical properties, template synthesis and gold-55 quantum dot cluster synthesis & optical characterization. Dr. Hornyak has over 30 published papers/ patents in the field.

Reviewing new trends and techniques for future chromosome research, this volume draws upon scientists from many disciplines to introduce various nano devices and applications that have been developed for handling the smallest biological materials, especially chromosomes. It details the visualization of chromosomes at nano and micro levels, including the most advanced applications ever employed for Scanning Probe Microscopy; discusses the development of a sustainable chromosome imaging database; examines isolation, comparative proteome analyses, and structural/functional analyses including a new 3-dimensional model; and describes a new antibody production method for chromosomal proteins.