1) modified graphite oxide
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改性氧化石墨
1.
Synthesis of polymer/modified graphite oxide biomaterials and in vitro antithrombogenicity assessment;
改性氧化石墨/聚合物的制备及其体外抗凝血性能的评价
2.
In this research,a novel anticoagulative biomaterial which was prepared from modified graphite oxide and silicone rubber through solution intercalated reaction was synthesized.
通过FT-IR、XRD、SEM和机械性能测试了解改性氧化石墨微观纳米结构对材料宏观性能的影响;溶血试验和血小板粘附试验测定表明硅橡胶/改性氧化石墨抗凝血纳米复合材料的血液相容性得到极大的改善;这种新型的、兼具优良血液相容性和良好力学性能的复合材料可望在生物医学工程方面得到应用。
2) modified graphite
![点击朗读](/dictall/images/read.gif)
改性石墨
1.
The modified graphite was compounded into PCM.
![点击朗读](/dictall/images/read.gif)
通过改性石墨与相变材料的复合使相变材料的热传导性能得到提高,并使改性石墨的用量降低到5%,可将相变时间缩短72。
2.
The XRD analysis showed that the modified graphite kept as main layer.
![点击朗读](/dictall/images/read.gif)
电性能测试结果表明:适量的SnO有利于提高石墨材料的比容量,当SnO的加入量为16%(质量分数)时,改性石墨显示出较优的电化学性能,比容量从纯石墨的332mAh·g-1提高到696mAh·g-1,20周期循环容量下降14%,循环性能优于纯SnO(20周期循环容量下降68%)。
3.
The coated graphite was further carbonized from 600℃ to 1 000 ℃ for 1 h under N2 after removing solvent of methane, to obtain a modified graphite.
通过浸渍的方法在天然鳞片石墨的表面包覆上一层酚醛树脂,然后在N2保护下于600℃~1 000℃炭化1h制得改性石墨。
3) Graphite oxide
![点击朗读](/dictall/images/read.gif)
氧化石墨
1.
Changes of structures and properties of graphite oxide in process of reduction under H_2;
![点击朗读](/dictall/images/read.gif)
氧化石墨在H_2还原过程中的结构与性能变化
2.
Formation of polyacrylamide/graphite oxide nanocomposite;
![点击朗读](/dictall/images/read.gif)
聚丙烯酰胺/氧化石墨纳米复合材料的研究
3.
In this paper,the structure,morphology feature of graphite oxide and research development of polymer/graphite oxide(GO) nanocomposites including preparation methods,types and characteristics were reviewed,and the developing prospects about this kind of nanocomposites in future were introduced.
氧化石墨因具有层状结构,能够以插层复合的方式与聚合物形成聚合物纳米复合材料。
4) graphite oxidation
![点击朗读](/dictall/images/read.gif)
石墨氧化
5) graphite oxides
![点击朗读](/dictall/images/read.gif)
石墨氧化物
6) graphite oxide membrane
![点击朗读](/dictall/images/read.gif)
氧化石墨膜
补充资料:氧化石墨
分子式:
分子量:
CAS号:
性质:石墨用硝酸、氯酸、高氯酸等强氧化剂处理形成的非计量层间化合物。碳-氧原子间可形成共价键,失去石墨原来的导电性。层间距增至6-19埃,结构如图所示。黄绿色片状固体,加热到150℃即分解,高温会因急速分解引起爆炸。上述性质对制造膨胀石墨极为有利。
分子量:
CAS号:
性质:石墨用硝酸、氯酸、高氯酸等强氧化剂处理形成的非计量层间化合物。碳-氧原子间可形成共价键,失去石墨原来的导电性。层间距增至6-19埃,结构如图所示。黄绿色片状固体,加热到150℃即分解,高温会因急速分解引起爆炸。上述性质对制造膨胀石墨极为有利。
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