Zjmfrank2012 (Talk | contribs) |
Zjmfrank2012 (Talk | contribs) |
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</figcaption></div> | </figcaption></div> | ||
</center> | </center> | ||
− | <h3 | + | <h3 class="bg">Methods</h3> |
<p><b>Ligand Synthesis and Exchange:</b></p><p> | <p><b>Ligand Synthesis and Exchange:</b></p><p> | ||
To increase the solubility and enable selective binding ability of the nanomaterials, the lipophilic ligands of our synthesized nanomaterials should be replaced by special ligands through ligand exchange. We used a well-developed procedure (developed in Zhong Lab@ShanghaiTech) to synthesize this ligand. We performed the ligand exchange experiment to replace the origin ligand of the nanomaterials. The result of ligand exchange experiment was shown by the following image. After this experiment, the nanomaterials were ready to be harnessed as the binding material of the biofilm and the solar energy harvester of the Solar Hunter.</p><p></p> | To increase the solubility and enable selective binding ability of the nanomaterials, the lipophilic ligands of our synthesized nanomaterials should be replaced by special ligands through ligand exchange. We used a well-developed procedure (developed in Zhong Lab@ShanghaiTech) to synthesize this ligand. We performed the ligand exchange experiment to replace the origin ligand of the nanomaterials. The result of ligand exchange experiment was shown by the following image. After this experiment, the nanomaterials were ready to be harnessed as the binding material of the biofilm and the solar energy harvester of the Solar Hunter.</p><p></p> | ||
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Transmission Electron Microscope (TEM) was used to image the shapes and sizes of QDs and NRs. The 120KV TEM (National protein facility center, Shanghai, China) we used provides the resolution of around 0.2nm. The TEM sample of our lipophilic QDs and NRs solution is prepared by simply dropping 10 μL of the solution on to the copper grid.</p><p></p> | Transmission Electron Microscope (TEM) was used to image the shapes and sizes of QDs and NRs. The 120KV TEM (National protein facility center, Shanghai, China) we used provides the resolution of around 0.2nm. The TEM sample of our lipophilic QDs and NRs solution is prepared by simply dropping 10 μL of the solution on to the copper grid.</p><p></p> | ||
− | <h3 | + | <h3 class="bg">Results</h3> |
<p><b>Synthesis and Characterization of CdS Nanorods</b></p><p> | <p><b>Synthesis and Characterization of CdS Nanorods</b></p><p> | ||
We synthesized CdS nanorods following a procedure adapted from a previously published protocol[1]. The synthesis procedure mainly contains two steps: synthesis of CdS seeds, followed by growth of CdS nanorods using CdS nanoparticles as nuclei. </p><p></p> | We synthesized CdS nanorods following a procedure adapted from a previously published protocol[1]. The synthesis procedure mainly contains two steps: synthesis of CdS seeds, followed by growth of CdS nanorods using CdS nanoparticles as nuclei. </p><p></p> |
Revision as of 16:30, 18 October 2016