比较奇怪这个5.5 nm的数据也能成论文重点。 "Previously, we have shown that rigid spherical nanoparticles such as quantum dots can be cleared by the kidneys if they have a hydrodynamic diameter of approximately 5.5 nm and a zwitterionic surface charge2. Here, we show that quantum dots functionalized with high-affinity small-molecule ligands that target tumours can also be cleared by the kidneys if their hydrodynamic diameter is less than this value, which sets an upper limit of 5–10 ligands per quantum dot for rena
这个5.5nm 的数据发表在前两年的Nature Material or Nature biotech上
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【在 m********8 的大作中提到】 : 比较奇怪这个5.5 nm的数据也能成论文重点。 : "Previously, we have shown that rigid spherical nanoparticles such as : quantum dots can be cleared by the kidneys if they have a hydrodynamic : diameter of approximately 5.5 nm and a zwitterionic surface charge2. Here, : we show that quantum dots functionalized with high-affinity small-molecule : ligands that target tumours can also be cleared by the kidneys if their : hydrodynamic diameter is less than this value, which sets an upper limit of : 5–10 ligands per quantum dot for rena
【在 m********8 的大作中提到】 : 比较奇怪这个5.5 nm的数据也能成论文重点。 : "Previously, we have shown that rigid spherical nanoparticles such as : quantum dots can be cleared by the kidneys if they have a hydrodynamic : diameter of approximately 5.5 nm and a zwitterionic surface charge2. Here, : we show that quantum dots functionalized with high-affinity small-molecule : ligands that target tumours can also be cleared by the kidneys if their : hydrodynamic diameter is less than this value, which sets an upper limit of : 5–10 ligands per quantum dot for rena