New Quantum Sensor Achieves Single-Atom Level Detection, A Breakthrough in Material Science

Significant progress has been made in physics research. The Max Planck Institute in Germany has successfully developed the world’s most sensitive quantum sensor, achieving detection precision at the single-atom level, which will bring revolutionary changes to fields such as material science and biomedicine. This new type of sensor is based on nitrogen-vacancy centers in diamonds … Read more

New Manufacturing Method for Superconducting Materials Emerges, Refreshing the Surface Area Record of Superconductors with 3D Printing

New Manufacturing Method for Superconducting Materials Emerges, Refreshing the Surface Area Record of Superconductors with 3D Printing

The research team from Cornell University has developed a brand new 3D printing process over nearly a decade, which can significantly enhance the performance of compound superconductors. This research is led by Professor Ulrich Wiesner from the Department of Materials Science and Engineering at Cornell University, primarily combining 3D printing and heat treatment to achieve … Read more

How 3D Printing Creates Self-assembling Superconductors

How 3D Printing Creates Self-assembling Superconductors

Cornell University researchers have unveiled a novel method for manufacturing superconductors that relies on specialized 3D printing inks and self-assembly techniques to create specific nanostructures. This strategy enables engineers to produce superconductors with specific characteristics and properties using less investment and fewer specialized devices. It has the potential to revolutionize fields such as computing and … Read more

Record-Breaking Magnetic Field Strength of 3D Printed Superconductors

Record-Breaking Magnetic Field Strength of 3D Printed Superconductors

Like it? Please follow us! According to a recent issue of “Nature Communications”, researchers at Cornell University have developed a “one-step” 3D printing method to create record-breaking superconductors. The printed niobium nitride superconductor, under the influence of a nanoporous structure, has achieved an upper critical magnetic field of 40-50 Tesla, setting the highest record for … Read more

PRL: NV Center Quantum Sensor Confirms Meissner Effect in Nickel-Based Superconductors

PRL: NV Center Quantum Sensor Confirms Meissner Effect in Nickel-Based Superconductors

Superconductivity Exploration Literature Overview 1 Minute Let’s read the literature Introduction Recently, a collaborative research team led by Professor Liu Xiaodi from the Hefei Institutes of Physical Science, Chinese Academy of Sciences, Professor Huang Xiaoli from Jilin University, and Professor Wang Meng from Sun Yat-sen University published a groundbreaking study in Physical Review Letters. They … Read more