ateamofscientistsfromtheuniversitiesofalbertaandtorontohavelaidouttheblueprintsforaquantumbatterythatneverlosesitscharge .加拿大TT thisbatterydoesntexistyet-butiftheyfigureouthowtobuildit, itcouldbearevolutionarybreakthroughinenergystorre thebatteriesthatwearemorefamiliarwith-like the lithium-ionbatterythatpowersyon alelectrochemma whereasquantumbatteriesrelysolelyonquantummechanics是universityofalbertachemistgabrielhannasaidinastatement.a “我们熟悉的电池依赖于向智能手机供电的锂离子电池等传统的电化学原理,意味着量子电池依赖于量子力学。Dark State暗状态apaperdescribingtheresearchwaspublishedinthejournalofphysicalchemistryc.injuly.thebatteryworksbyharnessingthebate itonicenergy-thestateinwhichanelectronabsorbssufficientlychargedphotonsoflight .在7月份的《物理化学杂志》上发表了记录这项研究的论文。该电池利用“激子能量”供给电力,对激子,即电子吸收电荷光子的状态进行充电。
theresearchersfoundthattheirresultingbatterymodelshouldbehighlyrobusttoenergylosses, thankstothefactthattheirbatteryispreparedinsideadarkstatewhereitcannotexchangeenergy-byabsorbingorreleasingphotons-wit tons urs 这是因为他们的电池是在“暗状态”下计划的。在这种状态下,电池不能通过吸收或发射光子与周围的环境交换能量。Large Charge大量电荷bybreakingdownthisdarkstatequantumnetwork是theresearchersclaimthebatterycouldbeabletodischargeandreleaseenergyy 通过超过这个“暗状态”量子网络,电池在这个过程中反应可以释放静电,释放能量。buttheteamhasyettocomeupwithviablewaysofdoingso.theywillalsohavetofigureoutawaytoscalethethechnologyforreal-worldappliccation 这个团队没有探索构建这个过程的现实方法,他们必须寻找实际应用这个技术的方法。
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