: Evidence of the device's ability to transmit data instantaneously.
: A comparison of data transmission quality both with and without white-light interference , proving the device's robustness in varied lighting conditions.
The file demonstrates the practical application of this "heterojunction" device in a communication system. Key features shown in the video include:
: Visual confirmation of the device's transient response to pulsed light signals at various frequencies. 3. Why the Double Extension?
: The device converts light into signals without a battery, a critical step for sustainable remote sensing.
The video serves as visual proof for the development of a . Researchers utilized Indium Selenide (InSe) nanosheets paired with ultrathin Silicon (Si) to create a device capable of high-performance light detection without needing an external power source. 2. Content of the Video
: Evidence of the device's ability to transmit data instantaneously.
: A comparison of data transmission quality both with and without white-light interference , proving the device's robustness in varied lighting conditions. 568387.mp4.mp4
The file demonstrates the practical application of this "heterojunction" device in a communication system. Key features shown in the video include: : Evidence of the device's ability to transmit
: Visual confirmation of the device's transient response to pulsed light signals at various frequencies. 3. Why the Double Extension? Key features shown in the video include: :
: The device converts light into signals without a battery, a critical step for sustainable remote sensing.
The video serves as visual proof for the development of a . Researchers utilized Indium Selenide (InSe) nanosheets paired with ultrathin Silicon (Si) to create a device capable of high-performance light detection without needing an external power source. 2. Content of the Video