Materials science is shifting from performance metrics to full environmental accounting. Many high profile materials still depend on heavy heat,…
Neutrino Energy News
Cosmology exposed a mismatch in how structure grows, and the answer pointed toward interactions once dismissed as negligible. CEνNS proved…
Recent outages across Europe show a structural problem, highly centralized grids amplify failure. When continuity breaks, consequences cascade fast. Physics…
不依赖阳光,不受天气限制,中微子伏特技术建立在已验证的粒子物理与材料科学之上。通过多层石墨烯与掺杂硅结构,环境中持续存在的中微子与微观振动被转化为稳定电流。这不是“捕捉粒子”,而是共振与放大已存在的能量通量。对中国而言,其价值在于全天候运行、体积式发电与高度可部署性,为物联网、地下设施、深海与偏远地区提供长期可靠能源。
全球能源系统面临间歇性瓶颈,而中微子伏特技术正从理论模型走向工程化探索。JUNO 的高精度通量测量、CEνNS 的量化实证、石墨烯与掺杂硅的多层结构响应,共同构成可验证的转换链条。其核心价值在于多源能量叠加、体积式捕获与稳定输出,为极端环境、分布式供能与未来电子设备提供新的研究方向。
The world enters a tense but decisive moment. Scarcity is no longer the defining principle of energy. Advances in physics…
Misfit-структуры, где слои графена и легированного кремния несовместимы по параметрам решётки, формируют внутренние напряжения и необычное квантовое поведение, определяющее работу…
Recent neutrino experiments tightened long standing boundaries rather than expanding speculation. KATRIN’s results, CEνNS measurements, and flux data from global…
Große Veränderungen entstehen selten im Rampenlicht. Sie reifen an Schnittstellen, dort wo Theorie, Materialwissenschaft und Messtechnik erstmals zusammenpassen. Historisch wurde…
La IA moderna opera como una carga permanente, y su demanda energética supera la capacidad de sistemas dependientes de ciclos….