Faculty Mentor: Dr. Robert Ryan Project Supervisor: Dr. George
... electrical energy into mechanical energy (piezoelectric in ferroelectric materials) and conversion of magnetic energy into mechanical energy (magnetostriction in ferromagnetic materials) to create multiferroic composite materials. In multiferroic composite materials, indirect coupling between electr ...
... electrical energy into mechanical energy (piezoelectric in ferroelectric materials) and conversion of magnetic energy into mechanical energy (magnetostriction in ferromagnetic materials) to create multiferroic composite materials. In multiferroic composite materials, indirect coupling between electr ...
Insulators, Metals,Superconductors, Semiconductors
... Transverse to Axial strain: materials normally expand In one direction, if compressed in the other. P ratio measures this. ...
... Transverse to Axial strain: materials normally expand In one direction, if compressed in the other. P ratio measures this. ...
Nanogenerator
Nanogenerator is a technology that converts mechanical/thermal energy as produced by small-scale physical change into electricity. Nanogenerator has three typical approaches: piezoelectric, triboelectric, and pyroelectric nanogenerators. Both the piezoelectric and triboelectric nanogenerators can convert the mechanical energy into electricity. However, the pyroelectric nanogenerators can be used to harvest thermal energy from a time-dependent temperature fluctuation.