At present, there is no scientific evidence or theoretical framework that supports the use of quantum entanglement for teleportation in the way it is often depicted in science fiction. While quantum entanglement is a real phenomenon that has been experimentally observed, it does not allow for the instantaneous transfer of matter or information over large distances.
Quantum entanglement is a quantum mechanical phenomenon where two or more particles become correlated in such a way that the state of one particle cannot be described independently of the state of the other particles, even if they are physically separated. However, this entanglement does not enable the transmission of classical information faster than the speed of light.
Teleportation, as commonly understood, involves the complete and instantaneous transfer of an object or person from one location to another. While there have been experiments demonstrating the teleportation of quantum states between distant particles, this process does not involve the transfer of matter itself. It relies on the transmission of information about the quantum state, which is then used to recreate that state in another location.
So, while quantum entanglement is an intriguing phenomenon with important implications for quantum information processing and cryptography, it does not currently provide a means for practical teleportation as seen in science fiction.