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Optimization of terahertz monolithic integrated frequency multiplier based on trap-assisted physics model of THz Schottky barrier varactor
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作者 Lu-Wei Qi Jin Meng +5 位作者 Xiao-Yu Liu yi weng Zhi-Cheng Liu De-Hai Zhang Jing-Tao Zhou Zhi Jin 《Chinese Physics B》 SCIE EI CAS CSCD 2020年第10期308-314,共7页
The optimization of high power terahertz monolithic integrated circuit (TMIC) is systemically studied based on the physical model of the Schottky barrier varactor (SBV) with interface defects and tunneling effect. An ... The optimization of high power terahertz monolithic integrated circuit (TMIC) is systemically studied based on the physical model of the Schottky barrier varactor (SBV) with interface defects and tunneling effect. An ultra-thin dielectric layer is added to describe the extra tunneling effect and the damping of thermionic emission current induced by the interface defects. Power consumption of the dielectric layer results in the decrease of capacitance modulation ration (Cmax/Cmin), and thus leads to poor nonlinear C–V characteristics. The proposed Schottky metal-brim (SMB) terminal structure could improve the capacitance modulation ration by reducing the influence of the interface charge and eliminating the fringing capacitance effect. Finally, a 215 GHz tripler TMIC is fabricated based on the SMB terminal structure. The output power is above 5 mW at 210–218 GHz and the maximum could exceed 10 mW at 216 GHz, which could be widely used in terahertz imaging, radiometers, and so on. This paper also provides theoretical support for the SMB structure to optimize the TMIC performance. 展开更多
关键词 C-V characteristic physics-based model terahertz monolithic integrated circuit(TMIC) Schottky barrier varactor
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基于纳米技术的药物递送策略及其在癌症治疗中的应用 被引量:3
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作者 徐寅生 任翔宇 +8 位作者 余梦真 翁祎 刘一瑄 宋本利 牛佳园 乔增莹 林耀新 曹宇虹 王浩 《科学通报》 EI CAS CSCD 北大核心 2023年第32期4346-4372,共27页
药物的有效递送对于疾病治疗至关重要.由于纳米材料独特的尺寸优势和性能,它在药物递送中可以有效地增强治疗药物到靶点的递送效率、最大限度地减少脱靶率.在癌症治疗方面,纳米材料能够通过功能化实现药物靶向运输和肿瘤联合治疗等,对... 药物的有效递送对于疾病治疗至关重要.由于纳米材料独特的尺寸优势和性能,它在药物递送中可以有效地增强治疗药物到靶点的递送效率、最大限度地减少脱靶率.在癌症治疗方面,纳米材料能够通过功能化实现药物靶向运输和肿瘤联合治疗等,对提高癌症治疗效率具有重要的意义.本文总结了体内和体外应用纳米材料和技术进行药物递送的进展以及面临的挑战,有助于深入全面了解纳米材料和技术在药物递送中的应用. 展开更多
关键词 药物递送 纳米材料 纳米技术 癌症治疗
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