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    • 6. 发明授权
    • Boron oxide and related compounds for hydrogen storage
    • 用于储氢的氧化硼和相关化合物
    • US07479240B2
    • 2009-01-20
    • US11271446
    • 2005-11-09
    • Seung-Hoon JhiYoung-Kyun KwonKeith BradleyJean-Christophe P. Gabriel
    • Seung-Hoon JhiYoung-Kyun KwonKeith BradleyJean-Christophe P. Gabriel
    • C09K3/00
    • B01D53/02B01D2253/104B01D2253/106B01D2253/112B01D2253/306B01D2253/308B01D2256/16B01D2259/4525C01B3/001Y02E60/324
    • A hydrogen storage medium is provided, where the medium is comprised of boron oxide and closely related compounds such as orthoboric acid, metaboric acid, hydrated boric acid, and disodium borohydrate. The medium is substantially an amorphous glassy network, albeit with local regions of order, pores, and networks that provide surface area. Hydrogen is adsorbed by the medium with a heat of adsorption of about 9 kJ/mol to about 13 kJ/mol, a value which is higher than that of the heat of adsorption of hydrogen on carbon. The value for the heat of adsorption of hydrogen on the inventive storage medium is provided by computation, and corroborated by experimental observation. The higher heat of adsorption of the medium provides for operation at temperatures higher temperatures higher than those provided by carbon. Further provided are methods by which the storage medium can be prepared in such a form so as to permit high capacity hydrogen storage, as well as an apparatus, with the inventive medium disposed therein, for storing hydrogen.
    • 提供了一种储氢介质,其中介质由氧化硼和紧密相关的化合物如原硼酸,偏硼酸,水合硼酸和硼酸二钠组成。 该介质基本上是非晶玻璃质网络,尽管有局部的顺序区域,孔隙和提供表面积的网络。 氢气吸附在约9kJ / mol至约13kJ / mol的吸附热下,该值高于碳对碳的吸附热。 通过计算提供了本发明储存介质上氢的吸附热值,并通过实验观察证实。 介质吸收较高的热量在比碳提供的温度更高的温度下运行。 还提供了存储介质可以以允许高容量氢存储的形式制备的方法,以及其中设置有本发明介质的装置,用于储存氢。
    • 7. 发明授权
    • Boron-oxide and related compounds for hydrogen storage
    • 用于氢存储的硼氧化物和相关化合物
    • US06991773B2
    • 2006-01-31
    • US10267792
    • 2002-10-08
    • Seung-Hoon JhiYoung-Kyun KwonKeith BradleyJean-Christophe P. Gabriel
    • Seung-Hoon JhiYoung-Kyun KwonKeith BradleyJean-Christophe P. Gabriel
    • C01B3/04C09K3/00
    • B01D53/02B01D2253/104B01D2253/106B01D2253/112B01D2253/306B01D2253/308B01D2256/16B01D2259/4525C01B3/001Y02E60/324
    • A hydrogen storage medium is provided, where the medium is comprised of boron oxide and closely related compounds such as orthoboric acid, metaboric acid, hydrated boric acid, and disodium borohydrate. The medium is substantially an amorphous glassy network, albeit with local regions of order, pores, and networks that provide surface area. Hydrogen is adsorbed by the medium with a heat of adsorption of about 9 kJ/mol to about 13 kJ/mol, a value which is higher than that of the heat of adsorption of hydrogen on carbon. The value for the heat of adsorption of hydrogen on the inventive storage medium is provided by computation, and corroborated by experimental observation. The higher heat of adsorption of the medium provides for operation at temperatures higher temperatures higher than those provided by carbon. Further provided are methods by which the storage medium can be prepared in such a form so as to permit high capacity hydrogen storage, as well as an apparatus, with the inventive medium disposed therein, for storing hydrogen.
    • 提供了一种储氢介质,其中介质由氧化硼和紧密相关的化合物如原硼酸,偏硼酸,水合硼酸和硼酸二钠组成。 该介质基本上是非晶玻璃质网络,尽管有局部的顺序区域,孔隙和提供表面积的网络。 氢气吸附在约9kJ / mol至约13kJ / mol的吸附热下,该值高于碳对碳的吸附热。 通过计算提供了本发明储存介质上氢的吸附热值,并通过实验观察证实。 介质吸收较高的热量在比碳提供的温度更高的温度下运行。 还提供了存储介质可以以允许高容量氢存储的形式制备的方法,以及其中设置有本发明介质的装置,用于储存氢。
    • 8. 发明授权
    • Hydrogen storage in nanostructure with physisorption
    • 具有物理吸附的纳米结构中的氢储存
    • US06672077B1
    • 2004-01-06
    • US10020392
    • 2001-12-11
    • Keith BradleyPhilip G. CollinsJean-Christophe P. GabrielYoung-Kyun KwonSeung-Hoon JhiGeorge Grüner
    • Keith BradleyPhilip G. CollinsJean-Christophe P. GabrielYoung-Kyun KwonSeung-Hoon JhiGeorge Grüner
    • F17C1100
    • C01B3/001F17C11/005Y02E60/321Y02E60/324Y10S977/948
    • A hydrogen containing nanostructure is provided, where the hydrogen is adsorbed to the nanostructure by physisorption. The nanostructure includes light elements, selected from the second and third rows of the periodic table. The nanostructure is formed as a layered network of light elements coupled with covalent sp2 bonds. The chemical composition of the nanostructure can be such that the desorption temperature of hydrogen is greater than the liquefaction temperature of nitrogen, 77 K. Further, a hydrogen storage system is provided, including a container and a nanostructured storage material within the container, wherein the nanostructured storage material includes light elements, and the nanostructured storage material is capable of adsorbing hydrogen by physisorption. The hydrogen storage system can include a liquid nitrogen based cooling system, capable of cooling the nanostructured storage material below the desorption temperature of hydrogen. Some embodiments contain a heater to control the temperature of the nanostructured storage material.
    • 提供含氢的纳米结构,其中通过物理吸附将氢吸附到纳米结构。 纳米结构包括选自周期表的第二行和第三行的光元件。 纳米结构形成为与共价sp 2结合的光元件的分层网络。 纳米结构的化学组成可以使得氢的解吸温度大于氮的液化温度(77K)。此外,提供了一种储氢系统,其包括容器内的容器和纳米结构的储存材料,其中 纳米结构储存材料包括轻元素,纳米结构储存材料能够通过物理吸附吸附氢。 氢存储系统可以包括液氮冷却系统,其能够将纳米结构的储存材料冷却至低于氢的解吸温度。 一些实施例包含用于控制纳米结构存储材料的温度的加热器。