1) birnessite
水钠锰矿
1.
The factors influencing synthesis of birnessite in alkali media;
碱性介质中合成水钠锰矿的几个影响因素
2.
Study on Microcosmic Mechanism of Pb~(2+) Adsorption on Birnessite
水钠锰矿吸附Pb~(2+)微观机理的研究
3.
In this paper, birnessite prepared by a modified method was taken as the precursor to synthesize todorokite.
以改进方法制备的水钠锰矿(birnessite)为前驱物,Mg2+交换后得到Mg水钠锰矿(或称布塞尔矿,buserite),经热液处理合成了结晶度高的单相钙锰矿(todorokite),采用X射线衍射(XRD)、透射电镜(TEM)和选区电子衍射(SAED)等技术探讨了热液温度、体系压力和处理时间等因素对钙锰矿合成的影响。
2) K-birnessite
K型水钠锰矿
3) Synthesis of Birnessite
水钠锰矿的合成
4) birnessite manganese oxide
水钠锰矿型锰氧化合物
1.
The result indicated that the nanocomposite had improved charge-discharge recycleability better than birnessite manganese oxide.
将水钠锰矿型锰氧化合物沉淀于剥离状态的氧化石墨层上,利用被锰氧化合物单层所 包裹的氧化石墨的自配列,合成了一种新型氧化石墨-锰氧化合物隔层排列的纳米复合材料。
5) natrophilite
[nə'trɔfilait]
磷钠锰矿
6) γ-MnOOH
水锰矿
1.
Microscopic structures of Zn (Ⅱ) surface complexes adsorbed on γ-MnOOH MnOOH under different temperatures were studied using Extended X-ray Absorption Fine Structure (EXAFS) spectroscopy.
用延展X射线吸收精细结构光谱(EXAFS)研究了不同温度下重金属Zn(Ⅱ)在水锰矿(γ-MnOOH)上吸附产物的微观构型,从微观角度研究了宏观的吸附热力学行为。
2.
Three kinds of adsorption species(hydrated,1st hydrolysis and 2nd hydrolysis) in Zn(Ⅱ)/γ-MnOOH system were calculated with DFT-B3LYP method.
采用密度泛函B3LYP方法对Zn(Ⅱ)在水锰矿(MnOOH)2(H2O)6簇模型表面的水合、一级和二级水解三类共11种吸附构型进行了理论研究。
补充资料:EDTA 锰钠盐
分子式:C10H12N2O8MnNa2.3(H2O)
分子量:443.18
CAS号:15375-84-5
性质:
分子量:443.18
CAS号:15375-84-5
性质:
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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