Single negatively charged nitrogen vacancy(NV-)centers in diamond have emerged as promising platforms for quantum information science,where long coherence times are essential for advancing quantum technologies.However...Single negatively charged nitrogen vacancy(NV-)centers in diamond have emerged as promising platforms for quantum information science,where long coherence times are essential for advancing quantum technologies.However,traditional fabrication methods often introduce lattice damage during the irradiation process used to create vacancies,significantly impairing the spin coherence properties of NV-centers.展开更多
The dawn of the intelligent era has driven a paradigm shift in materials science,where intelligence,defined by adaptive responsiveness,artificial intelligence(AI)integration,and multifunctional synergy,has become the ...The dawn of the intelligent era has driven a paradigm shift in materials science,where intelligence,defined by adaptive responsiveness,artificial intelligence(AI)integration,and multifunctional synergy,has become the core benchmark for advanced functional systems.Unlike traditional materials,intelligent materials and devices have the inherent ability to perceive external stimuli(e.g.,light,heat,force,electricity,and magnetism),initiate dynamic responses,and even self-optimize their performance.This enables transformative breakthroughs in wearable electronics,intelligent monitoring systems,and personal health management.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.112374012 and 11974208)Shandong Provincial Natural Science Foundation(Grant Nos.ZR2023JQ001 and tsqn202211128)。
文摘Single negatively charged nitrogen vacancy(NV-)centers in diamond have emerged as promising platforms for quantum information science,where long coherence times are essential for advancing quantum technologies.However,traditional fabrication methods often introduce lattice damage during the irradiation process used to create vacancies,significantly impairing the spin coherence properties of NV-centers.
文摘The dawn of the intelligent era has driven a paradigm shift in materials science,where intelligence,defined by adaptive responsiveness,artificial intelligence(AI)integration,and multifunctional synergy,has become the core benchmark for advanced functional systems.Unlike traditional materials,intelligent materials and devices have the inherent ability to perceive external stimuli(e.g.,light,heat,force,electricity,and magnetism),initiate dynamic responses,and even self-optimize their performance.This enables transformative breakthroughs in wearable electronics,intelligent monitoring systems,and personal health management.
