做一些传统芯片过去不太容易做到的事情 如何在纤维上实现高效信息处理功能,但又不影响纤维器件柔软、适应复杂形变、可编织等本征特性,复旦大学团队的最新成果为纤维器件实现规模应用提供可能。 1月22日凌晨,复旦大学彭慧胜/陈培宁团队的研究成果在《自然》主刊发布,该成果突破传统芯片集成电路硅基研究范式,率先通过设计多层旋叠架构,在弹性高分子纤维内实现了大规模集成电路(简称“纤维芯片”)。 柔软的“...
Source Link做一些传统芯片过去不太容易做到的事情 如何在纤维上实现高效信息处理功能,但又不影响纤维器件柔软、适应复杂形变、可编织等本征特性,复旦大学团队的最新成果为纤维器件实现规模应用提供可能。 1月22日凌晨,复旦大学彭慧胜/陈培宁团队的研究成果在《自然》主刊发布,该成果突破传统芯片集成电路硅基研究范式,率先通过设计多层旋叠架构,在弹性高分子纤维内实现了大规模集成电路(简称“纤维芯片”)。 柔软的“...
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