The active ingredients found in medicinal plants,which are specialized secondary metabolites accumulated during specific growth stages and localized withinparticular tissues,serve as the foundational material for thei...The active ingredients found in medicinal plants,which are specialized secondary metabolites accumulated during specific growth stages and localized withinparticular tissues,serve as the foundational material for their pharmacological effects.展开更多
Driven by exponential global data growth and the demand for high-speed and low-power processing,photonic integrated circuits(PICs)have emerged as a cornerstone of next-generation chip technologies[1].As electronic cir...Driven by exponential global data growth and the demand for high-speed and low-power processing,photonic integrated circuits(PICs)have emerged as a cornerstone of next-generation chip technologies[1].As electronic circuits hit physical limits,constrained by speed,heat dissipation,and scaling bottlenecks,PICs,which transmit data using photons,provide a viable alternative with high bandwidth,ultrafast processing,and low energy consumption.Beyond planar PICs,which have achieved substantial advancements,three-dimensional(3D)PICs—based on 3D path routing and arbitrary cross-sectional shapes—have developed rapidly.展开更多
文摘The active ingredients found in medicinal plants,which are specialized secondary metabolites accumulated during specific growth stages and localized withinparticular tissues,serve as the foundational material for their pharmacological effects.
基金supported by the Human Resource Training Project of Innovation Laboratory for Sciences and Technologies of Energy Materials of Fujian Province(No.HRTP-[2022]–53).
文摘Driven by exponential global data growth and the demand for high-speed and low-power processing,photonic integrated circuits(PICs)have emerged as a cornerstone of next-generation chip technologies[1].As electronic circuits hit physical limits,constrained by speed,heat dissipation,and scaling bottlenecks,PICs,which transmit data using photons,provide a viable alternative with high bandwidth,ultrafast processing,and low energy consumption.Beyond planar PICs,which have achieved substantial advancements,three-dimensional(3D)PICs—based on 3D path routing and arbitrary cross-sectional shapes—have developed rapidly.
