I went to my high school alma mater the day before yesterday,Look at the teachers who taught us in high school,The campus is still so familiar,The teacher's office is still piled up with test papers,I found that the teacher really hasn't changed at all,It's just that the students they teach are no longer us,After half a year,The teacher can also call out my name clearly,It can be seen that our teacher has not forgotten us,So when I have time, I will visit our alma mater,Look at the teachers who taught us back then!!!I wish Changyuan Tenth Middle School do better,The teacher is healthy,The students are academically successful.。。。。
Join us for the webinar “Women in Media” organized by The Italian Chamber of Commerce in Hong Kong and Macao and the Women’s Leadership Network Committee this Tuesday!
It will be moderated by the wonderful Professor Veronique Lafon-Vinais from my alma mater the 香港科大商学院. CNBC colleague and MSGF alumna Chery Kang and I will discuss our career paths and “how to” build one’s own path in the highly competitive media/communications field.
Date: August 25
⏰ Time: 6:30 - 7:30pm (HK time)
RSVP here:
https://t.cn/A6UDl1QN
#媒体#
It will be moderated by the wonderful Professor Veronique Lafon-Vinais from my alma mater the 香港科大商学院. CNBC colleague and MSGF alumna Chery Kang and I will discuss our career paths and “how to” build one’s own path in the highly competitive media/communications field.
Date: August 25
⏰ Time: 6:30 - 7:30pm (HK time)
RSVP here:
https://t.cn/A6UDl1QN
#媒体#
【Adv Mater丨郑乐民团队利用高灵敏的光声纳米探针实现在分子水平非侵入性地成像动脉粥样硬化斑块】动脉粥样硬化(AS)是引发心脑血管疾病,尤其是心肌梗死和中风的主要病生理原因。能够在分子水平识别AS不稳定斑块对心脑血管疾病的预防和治疗尤为重要。据报道,巨噬细胞泡沫化是促进AS不稳定斑块形成的主要原因,发展高灵敏的成像造影剂为在分子水平靶向识别AS不稳定斑块提供了一种新思路。
2020年8月16日,北京大学基础医学院郑乐民教授团队在Advanced Materials期刊上在线发表研究论文。该研究设计并合成了一种高灵敏的光声纳米探针,在分子水平实现了对AS不稳定斑块非侵入性在体光声成像 (photoacoustic imaging),为心血管疾病诊断技术的发展提供了一种新方法。该研究团队利用纳米材料卓越的表面效应和易于修饰的特性,选取Ti3C2纳米片做载体共负载OPN Ab和ICG分子,合成了一种新型的OPN Ab/Ti3C2/ICG纳米探针。研究结果表明,OPN Ab/Ti3C2/ICG纳米探针可在分子水平识别AS不稳定斑块的主要成分,为非侵入性可视化区分AS不稳定斑块提供了新的思路。https://t.cn/A6UgQKNR
2020年8月16日,北京大学基础医学院郑乐民教授团队在Advanced Materials期刊上在线发表研究论文。该研究设计并合成了一种高灵敏的光声纳米探针,在分子水平实现了对AS不稳定斑块非侵入性在体光声成像 (photoacoustic imaging),为心血管疾病诊断技术的发展提供了一种新方法。该研究团队利用纳米材料卓越的表面效应和易于修饰的特性,选取Ti3C2纳米片做载体共负载OPN Ab和ICG分子,合成了一种新型的OPN Ab/Ti3C2/ICG纳米探针。研究结果表明,OPN Ab/Ti3C2/ICG纳米探针可在分子水平识别AS不稳定斑块的主要成分,为非侵入性可视化区分AS不稳定斑块提供了新的思路。https://t.cn/A6UgQKNR
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