National Nanocenter joins hands with Science magazine to release top ten cutting-edge nanotechnology problems
In the early morning of November 24, the National Nanoscience Center and Science magazine released the top ten cutting-edge nanotechnology problems to the world.
The top ten cutting-edge nanotechnology problems aim to provide guidance for scientific research in the field of global nanotechnology, and bring new enlightenment to explore the knowledge boundaries of nanotechnology and tap the potential of nanotechnology.
At the end of April 2023, the National Nanocenter and Science magazine launched a global solicitation for cutting-edge nanotechnology problems, and received candidates from more than 20 countries including China, the United States, Canada, Germany, Australia, Singapore, and South Korea who are engaged in nanotechnology research. Positive feedback and responses from well-known scientists and young scholars.
It is reported that "Science" magazine published "125 Scientific Questions" to the world twice in 2005 and 2021, which stimulated heated discussions and thinking among global scientific researchers about future scientific and technological development.
In 2022, "Nano Science and Engineering" was listed as a first-level discipline by the Academic Degrees Committee of the State Council and the Ministry of Education. Nanotechnology has become a cutting-edge research field that integrates intersectionality, leadership and support.
Related links: Top ten cutting-edge nanotechnology problems
1. Is it possible to construct a nanotheory that covers both quantum and macroscopic physical properties and thus reliably predicts the properties of materials at the nanoscale?
2. What characteristics are related to the safety of nanomaterials? How to achieve effective regulation of its security in different environments?
3. How does nanoscience help the development of biology?
4. What changes will nanotechnology bring to medical technology?
5. How to use visualization technology to study the surface and interface of nanomaterials?
6. How does nanotechnology affect the preparation of different types of catalysts?
7. How to achieve large-scale manufacturing with atomic precision?
8. How will nanotechnology improve computing power and promote the development of optoelectronic devices?
9. What impact will nanotechnology have on the development of the electronics industry? What will be the energy consumption limit of electronic devices in the future?
10. How does nanotechnology contribute to global sustainable development?