rgo

The results show that Fe2O3 / RGO has the best catalytic activity .

结果显示Fe2O3/RGO纳米粒子催化活性最好。

The results showed that the Li2MnO3 + rGO hybrid surface modified sample had the best electrochemical performance .

结果表明：Li2MnO3+rGO混合修饰样品展现出了最佳的电化学性能。

Slaves : These people who have no rights , but can work at the any type of RGO .

奴隶：这些人没有任何权利，但是可以为任何产业工作。

A series of products were synthesized by changing the ratio of Py monomer and RGO .

通过改变呲咯（Py）单体和RGO的配比，合成了一系列产物。

RGO is a kind of ideal adsorbent with large specific area , which can be used to adsorb drug molecules .

RGO具有较大的比表面积，是一种理想的吸附剂，可以用于对药物分子的吸附。

We prepared the PPy-PSS / RGO composites by in-situ polymerization .

我们通过原位聚合法合成了聚吡咯-聚苯乙烯磺酸钠/石墨烯（PPy-PSS/RGO）复合材料。

All behaviors of above devices indicate that the defects on the rGO surface play a critical role in gas adsorption and charge transfer .

这些结果表明rGO表面的缺陷对气体的吸附和电荷转移有重要的作用。

The dissertation is mainly focused on : 1 . An improved method for preparation of graphene oxide ( GO ) and reduced graphene ( RGO ) by our group .

主要工作如下：1.通过本课题组改进了的氧化还原法制备出氧化石墨烯（GO）和石墨烯（RGO）。

Using RGO to adsorb sinomenine , then Langmuir equation and Freundlich equation are used to fit the adsorption type , we estimate that the adsorption is multimolecular adsorption .

通过RGO对青藤碱的吸附，利用朗格缪尔方程和弗兰德里希方程对其吸附类型进行拟合，判断RGO吸附青藤碱的主要吸附类型为多分子吸附。

Because of iron nanoparticles are prone to oxidated by oxygen , the Fe / RGO material used in the preparation of SiO2 / Fe / RGO ) composite was obtained directly using filtrated composite attained in the scheme ( 3 ) .

由于所制备的铁粒子极易被空气氧化，因此制备SiO2/Fe/RGO复合材料时所用的Fe/RGO复合材料为将步骤（3）中的材料进行过滤后直接进行下一步包覆反应。

In this thesis , we obtained reduced graphene ( RGO ) by reducing graphite oxide ( GO ) . Then RGO solids were used as precursors to prepare graphene nanocomposites by different methods , and the electrical properties of the composites were also studied .

本文采用氧化还原法制备出了石墨烯粉末，然后以石墨烯为前驱体，采用不同的方法来制备石墨烯纳米复合材料，对复合材料的电学性能进行了一系列的研究。

The main researches were summarized as follows : ( 1 ) We construct a novel AChE biosensor based on prussian blue nanocubes / reduced graphene oxide ( PBNCs / rGO ) nanocomposite for detection of organophosphorus pesticides ( OPs ) .

其主要内容概括如下：（1）我们构建了一个基于石墨烯-普鲁士蓝纳米复合粒子修饰的乙酰胆碱酯酶生物传感器并用其来检测有机磷农药的暴露情况。