X-ray photoelectron spectra; biomedical electrodes; cracks; focused ion beam technology; micromachining; neurophysiology; phantoms; prosthetics; scanning electron microscopy; FIB; PLP; SEM; TIME-3H systems; X-ray photoelectron spectroscopy; XPS; crack formation; focused ion beam; implanted nervous thin-film electrode stability; integrated scanning electron microscopy; material composition; metallization; micromachined neural implants; multichannel thin-film electrodes; phantom limb pain; transverse intrafascicular multichannel electrode; Ceramics; Clinical trials; Delamination; Electrodes; Metallization; Platinum; Scanning electron microscopy; FIB; Polyimide; SIROF; TIME; XPS; thin-film;
机译:使用石墨烯电极研究有机薄膜晶体管中的半导体/电极界面
机译:对骨架锚杆稳定性测量的邻接长度和植入稳定价(ISQ)之间的依赖性研究
机译:用于人工耳蜗的聚对二甲苯薄膜电极阵列的设计,制作和评估
机译:植入神经薄膜电极的稳定性研究
机译:薄膜药物传递涂层,可减轻与人工神经微电极植入相关的反应性组织反应
机译:同时种植的植入物周围植入物周围组织状况和植入物周围组织稳定性的研究:一项新开发的骨水平植入物系统的三年回顾性随访分析
机译:微结构化薄膜电极技术使可扩展的柔软听觉脑干植入物的概念证明
机译:Cu(x)s-Cds Duennschicht-solarzellen - Untersuchungen ueber die Nachbehandlung und die stabilitaet(后续处理和Cu(x)s-Cds薄膜太阳能电池稳定性的研究)