芝加哥大学化学系副教授TIAN Bozhi领导的研究小组通过化学方法制备出第1个骨架状硅骨针。以骨的形成作为指导,将硅发展成一种可以改善软组织和硬质材料之间相互作用的合成材料。在6月26日发表于Science的论文中,田教授和来自芝加哥和西北大学的合作者描述了这种新方法的合成和微观三维半导体的制造(纳米和宏观尺度之间的状态)。该团队在半导体和生物材料的发展上实现了3个进步,为设立电子产品加强生物界面的检测和刺激开 A team led by TIAN Bozhi, associate professor of chemistry at the University of Chicago, prepared the first skeleton-shaped silicon needle by chemical methods. With bone formation as a guide, silicon is developed into a synthetic material that improves the interaction between soft tissues and hard materials. In a paper published in Science on June 26, Professor Tian and collaborators from Chicago and Northwestern University described the synthesis of this new approach and the fabrication of micro-three-dimensional semiconductors (states between nanoscale and macroscopic scales). The team made three advances in the development of semiconductors and biomaterials to enhance the detection and stimulation of biological interfaces for the establishment of electronic products