Impacts of metal oxide additives on the capacity and stability of calcium oxide based materials for the reactive sorption of CO2
文献信息
Luke T. Minardi, Faisal H. Alshafei, Zubin K. Mishra, Dante A. Simonetti
Several metal additives (Al, Co, Cr, Er, Ga, In, La, Li, Mg, Nd, Y, and Zn) at nominal 3 : 10 (M : Ca) ratios were investigated for their ability to stabilize high capacity calcium oxide nanofibers over repeated carbonation–regeneration cycles. Samples containing Mg, Y, Nd, La, and Er additives had maximum sorption capacities from 0.40–0.60 gCO2 gsorbent−1, compared to 0.79 gCO2 gsorbent−1 for CaO. Y, Al, Er, and Nd were most effective for improving the stability of CaO, each had first order deactivation constants that were at least one order of magnitude smaller compared to CaO. Post-carbonation characterization revealed that particle agglomeration and structure degradation were the primary reasons for loss in capacity over repeated carbonation–regeneration cycles. Metal additives with high Tammann temperatures of the corresponding metal oxide mitigated structure degradation, leading to improved cyclic stability compared to pure CaO. Additionally, mixed oxide formation had no effect on stability albeit a deleterious effect on sorbent capacity.
期刊推荐

Current Opinion in Solid State & Materials Science

Chemistry Education Research and Practice

Acta Materialia

Saudi Pharmaceutical Journal

Journal of Natural Medicines

Russian Journal of Coordination Chemistry

Russian Journal of Bioorganic Chemistry

Chemical Communications

Russian Journal of General Chemistry

New Journal of Chemistry
相关文献
Ligand-free Pd/C-catalyzed Suzuki–Miyaura coupling reaction for the synthesis of heterobiaryl derivatives
Yoshiaki Kitamura, Satoko Sako, Takahiro Udzu, Azusa Tsutsui, Tomohiro Maegawa, Yasunari Monguchi, Hironao Sajiki
DOI: 10.1039/B712207A
Nucleophilic aromatic substitution using Et3SiH/cat. t-Bu-P4 as a system for nucleophile activation
Masahiro Ueno, Misato Yonemoto, Masahiro Hashimoto, Andrew E. H. Wheatley, Hiroshi Naka, Yoshinori Kondo
DOI: 10.1039/B700140A
Efficient proton conduction in dry nanofilms of amorphous aluminosilicate
Yoshitaka Aoki, Emi Muto, Shinya Onoue, Toyoki Kunitake
DOI: 10.1039/B618920B
From inconsistent results to high speed hydrosilylation
Virginie Comte, Cédric Balan, Pierre Le Gendre, Claude Moïse
DOI: 10.1039/B617413B
A molecular turnstile in para-octanoyl calix[4]arene nanocapsules
Gennady S. Ananchenko, Konstantin A. Udachin, Michaela Pojarova, Said Jebors, Anthony W. Coleman, John A. Ripmeester
DOI: 10.1039/B613972H
Electrical properties of 1,4-bis(4-(phenylethynyl)phenylethynyl)benzene and its application for organic light emitting diodes
Guang Shao, Akihiro Orita, Masayuki Yahiro, Junzo Otera, Sergei Svechnikov, Chihaya Adachi
DOI: 10.1039/B700466D
Direct 23Na NMR observation of mixed cations residing inside a G-quadruplex channel
Ramsey Ida, Irene C. M. Kwan, Gang Wu
DOI: 10.1039/B613105K
Electrochemical conversion of dinitrogen to ammonia mediated by a complex of fullerene C60 and γ-cyclodextrin
Lubomír Pospíšil, Jana Bulíčková, Magdaléna Hromadová, Miroslav Gál, Svatopluk Civiš, Jaroslav Cihelka, Ján Tarábek
DOI: 10.1039/B701017F
Photochromic bisthienylethene as multi-function switches
He Tian, Sheng Wang
DOI: 10.1039/B610004J
Template controlled self-assembly of bidentate phosphine complexes with hemilabile coordination behaviour
Samir Chikkali, Dietrich Gudat, Mark Niemeyer
DOI: 10.1039/B616102B
您可能还喜欢
奥美沙坦酯杂质4(CAS号:95579-71-8)的主要用途是什么?
奥美沙坦酯杂质4在药物工业中并无特定用途,主要作为生产和质量控制中的监控指标,以确保产品质量和符合相关规范。它具有一定的化学活性,因此在生产过程中需要严格控制其...
如何储存C3bot (154-182)(CAS号:1246280-79-4)?
C3bot (154-182)应储存在干燥、阴凉、通风良好的环境中,避免阳光直射。具体储存条件需要参考其相关安全数据表(SDS)中的储存信息。建议使用密闭容器存...
在合成中是否有4-吡唑甲酸乙酯(CAS号:37622-90-5)的替代品?
在合成过程中,可以考虑使用类似结构的化合物作为替代品,例如4-吡唑甲酸甲酯或其他吡唑类化合物。这些替代品在性质上相似,可以用于相似的合成反应中,但需根据具体应用...
(2-溴乙基)三甲基硅烷(CAS号:18156-67-7)的主要用途是什么?
(2-溴乙基)三甲基硅烷主要用作有机合成中的溴代试剂,特别是在硅化学领域中,用于制备硅烷衍生物和硅基功能材料。它也用于表面改性、催化剂合成、医药中间体合成以及分...
如何处理含有2-(4-broMophenyl)-1,1,1-trifluoropropan-2-ol(CAS号:122243-28-1)的废料?
含该化合物的废料需按照危险废物管理规定进行分类和处理。首先,应尽量减少废料的产生,通过改进生产工艺实现废物最小化。对于不可避免的废料,建议采用安全的收集方法,避...
什么是1,1,1-三氟-6-苯基-5-(e)-己烯-2,4-二酮(CAS号:18931-64-1)?
1,1,1-三氟-6-苯基-5-(e)-己烯-2,4-二酮是一种有机化合物,化学式为C14H8F3O2。它是一种具有特定立体结构的芳香族化合物,属于酮类。
2-(2-甲基哌啶-1-基)-2-氧代-乙酸(CAS号:77654-61-6)的主要用途是什么?
2-(2-甲基哌啶-1-基)-2-氧代-乙酸主要用于药物合成、有机合成及作为化学试剂。它在医药领域有一定的应用,可用于合成某些药物中间体。此外,它还用于实验室研...
如何储存(R)-1-(3-Chlorophenyl)-2,2,2-trifluoroethanamine(CAS号:1213627-66-7)?
应将(R)-1-(3-氯苯基)-2,2,2-三氟乙胺储存在阴凉、干燥、通风良好的地方,远离火源和热源。应使用密封的容器储存,并避免光照。储存温度应控制在室温范围...
N-亚硝基-N,N-二壬基胺(CAS号:84424-96-4)的市场或研究趋势如何?
N-亚硝基-N,N-二壬基胺目前主要应用于有机合成和药物化学领域。市场趋势显示,随着有机合成技术的进步,该化合物在新药研发中的应用将更加广泛。新兴研究领域包括其...
5-Chloro-2-methoxy-3-(2,2,2-trifluoroethoxy)pyridine(CAS号:1280786-68-6)的市场或研究趋势如何?
该化合物在医药、农药等领域有潜在应用价值,但市场需求较小。目前研究趋势主要集中在探索其在特定领域的应用潜力,如作为药物合成中的中间体。随着研究的深入,预计未来市...


![Ethyl 5-[({[(2-methyl-2-propanyl)oxy]carbonyl}amino)methyl]-1,2-oxazole-3-carboxylate structure Ethyl 5-[({[(2-methyl-2-propanyl)oxy]carbonyl}amino)methyl]-1,2-oxazole-3-carboxylate structure](https://cnstatic.chemtradehub.com/structs/253/253196-37-1-8450.webp)


