研究人员发现注入的自旋方向对手性材料通过的影响，这对节能自旋电子器件具有重要意义。 Researchers discover impact of injected spin direction on chiral material passage, with implications for energy-efficient spintronic devices.

北卡罗来纳州立大学和匹兹堡大学的研究人员发现，注入手性材料的自旋方向会显著影响其穿过的能力。 Researchers from NC State University and the University of Pittsburgh discovered that the direction of injected spin into chiral materials significantly impacts their ability to pass through. 这可能导致用于数据存储、通信和计算的节能自旋电子器件的出现。 This could lead to energy-efficient spintronic devices for data storage, communication, and computing. 自旋电子设备利用电子自旋而不是电荷来产生电流和传输信息，从而降低能耗。 Spintronic devices use electron spin instead of charge to create current and transfer information, reducing energy consumption.