The transformation of ferrihydrite into goethite or hematite, revisited

Cudennec Y; Lecerf A

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The transformation of ferrihydrite into goethite or hematite, revisited

机译：再谈水铁矿到针铁矿或赤铁矿的转变

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During the oxidation of iron, poorly crystallized phases are firstly formed: 2- and 6-line ferrihydrite, which presents for the last phase, a similarity with wustite FeO but also with hematite alpha-Fe2O3. Crystallization increases with time and the solid phase obtained is dependent on temperature and pH. Obviously, high temperature favours the formation of the oxide hematite alpha-Fe2O3. As for the pH factor, it is more complicated. Low and high values of pH (2-5 and 10-14) favour the formation of goethite alpha-FeOOH, while obtaining hematite is favoured at neutral pH (values around 7). Goethite or hematite are obtained either through a dissolution-Crystallization process or in the solid state, through a topotactic transformation.

机译：在铁的氧化过程中，首先形成结晶度较差的相：2和6线亚铁水合物，在最后一个相中，与辉石FeO相似，也与赤铁矿α-Fe2O3相似。结晶度随时间增加，获得的固相取决于温度和pH。显然，高温有利于氧化物赤铁矿α-Fe2O3的形成。至于pH因子，则更为复杂。 pH的低值和高值（2-5和10-14）有利于针铁矿α-FeOOH的形成，而中性pH值（约7）则有利于获得赤铁矿。针铁矿或赤铁矿可以通过溶解结晶过程获得，也可以通过全固态转化获得固态。

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《International Journal of Quantum Chemistry》 |2006年第3期|共7页
作者
Cudennec Y; Lecerf A;
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正文语种 eng
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ferrihydrite; goethite; hematite; wustite; structural relationships; topotactic transformation; HYDROUS FERRIC-OXIDE; GREEN RUST; TOPOTACTIC TRANSFORMATIONS; 2-LINE FERRIHYDRITE; ALUMINOUS GOETHITE; IRON-OXIDES; LEPIDOCROCITE; DEHYDROXYLATION; REDUCTION; FE(II);

机译：铁水铁矿;针铁矿;赤铁矿;针铁矿;结构关系;定势转变;水合三氧化二铁;绿色铁锈;光变;两线铁水合硅酸盐;铝白云母;氧化铁;丝云母;脱氧羰基化;还原;

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1. The transformation of ferrihydrite into goethite or hematite, revisited [J] . Cudennec Y, Lecerf A International Journal of Quantum Chemistry . 2006,第3期

机译：再谈水铁矿到针铁矿或赤铁矿的转变
2. THE EFFECT OF ANTIMONATE, ARSENATE, AND PHOSPHATE ON THE TRANSFORMATION OF FERRIHYDRITE TO GOETHITE, HEMATITE, FEROXYHYTE, AND TRIPUHYITE [J] . Ralph Michael Bolanz, Ulrich BlaEss, Sonia Ackermann, Clays and clay minerals . 2013,第1a2期

机译：铵盐，砷酸盐和磷酸盐对亚铁酸盐转变为针铁矿，赤铁矿，亚铁水合物和三水铝石的影响
3. Formation of green rust via mineralogical transformation of ferric oxides (ferrihydrite, goethite and hematite) [J] . M. Usman, K. Hanna, M. Abdelmoula, Applied clay science . 2012,第Auga期

机译：通过三氧化二铁（水铁矿，针铁矿和赤铁矿）的矿物学转变形成绿锈
4. ED-XRD study of ferrihydrite transformation to goethite via the Fe~Ⅱ pathway [C] . Nathan Yee, T. Hien Nguyen, Liane G. Benning, International Symposium on Water-Rock Interaction(WRI-11) vol.2; 20040627-0702; Saratoga Springs,NY(US) . 2004

机译：ED-XRD研究Fe〜Ⅱ途径使水铁矿转变成针铁矿
5. Characterization of the Goethite-Hematite ratio in Modern and Ancient Soils in the Mid-Atlantic Region as a Paleoprecipitation Proxy [D] . Markley, Laura. 2017

机译：中大西洋地区现代和古土壤赤铁矿比例的特征为古策沉淀代理
6. Control of Earth-like magnetic fields on the transformation of ferrihydrite to hematite and goethite [O] . Zhaoxia Jiang, Qingsong Liu, Mark J. Dekkers, -1

机译：控制铁水转变为赤铁矿和针铁矿的类地磁场
7. The transformation of ferrihydrite into goethite or hematite, revisited [O] . Yannick Cudennec, André Lecerf 2006

机译：将Ferrihydrite转化为霉菌或赤铁矿，重新审视

The transformation of ferrihydrite into goethite or hematite, revisited

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