When the connection interface reaches the nanoscale, traditional Ohm's law faces the challenge of quantum fluctuations. We utilize two-dimensional heterojunctions grown by molecular beam epitaxy and manipulate the electron cloud distribution through moiré superlattices. The atomically flat contact surface reduces the interface state density by three orders of magnitude, writing the conductive poetry of the nanometer era.
When the connection interface reaches the nanoscale, traditional Ohm's law faces the challenge of quantum fluctuations. We utilize two-dimensional heterojunctions grown by molecular beam epitaxy and manipulate the electron cloud distribution through moiré superlattices. The atomically flat contact surface reduces the interface state density by three orders of magnitude, writing the conductive poetry of the nanometer era.
