This photograph taken on March 24, 2021 shows Luo Yifei, PhD student at Nanyang Technological University's (NTU) School of Materials Science and Engineering in Singapore, testing an electrode on the surface of a Venus flytrap plant at a laboratory. A team of scientists led by NTU Singapore scientists developed a high-tech system that can deliver electrical signals to and from plants for communicating with vegetation. They are the latest to conduct research communicating with plants. (Photo/Agencies)
This photograph taken on March 24, 2021 shows a dead fly trapped inside a Venus flytrap plant, used to test an electrode attached on the surface of the plant at a laboratory in Singapore. A team of scientists led by NTU Singapore scientists developed a high-tech system that can deliver electrical signals to and from plants for communicating with vegetation. They are the latest to conduct research communicating with plants. (Photo/Agencies)
This photograph taken on March 24, 2021 shows Luo Yifei, PhD student at Nanyang Technological University's (NTU) School of Materials Science and Engineering in Singapore, attaching an electrode on the surface of a Venus flytrap plant at a laborator. A team of scientists led by NTU Singapore scientists developed a high-tech system that can deliver electrical signals to and from plants for communicating with vegetation. They are the latest to conduct research communicating with plants. (Photo/Agencies)
This photograph taken on March 24, 2021 shows Luo Yifei, PhD student at Nanyang Technological University's (NTU) School of Materials Science and Engineering in Singapore, picking up an electrode to be attached on the surface of a Venus flytrap plant at a laboratory. A team of scientists led by NTU Singapore scientists developed a high-tech system that can deliver electrical signals to and from plants for communicating with vegetation. They are the latest to conduct research communicating with plants. (Photo/Agencies)