In-situ synthesis of porous silica-ruthenium composite catalyst for hydrolysis of ammonia borane

IF 2.5 4区 材料科学 Q2 CHEMISTRY, APPLIED Journal of Porous Materials Pub Date : 2024-07-05 DOI:10.1007/s10934-024-01652-2
Tetsuo Umegaki, Haruhiro Imai, Qiang Xu, Yoshiyuki Kojima
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Abstract

The present study reports in-situ synthesis of porous silica-ruthenium composite catalyst for hydrolysis of ammonia borane. The in-situ synthesized catalyst precursors were prepared via sol-gel based methods using surfactant micelles of cethyltrimethylammonium bromide (CTAB) to form well-ordered nanopores in the precursor particles. The precursors consisted of spherical particles with the diameter of ca. 20–60 nm and nanopores with the diameter of ca. 2–3 nm were included in the precursor particles. The specific surface areas and pore volumes decreased with increasing of ruthenium content, while their catalytic activity for hydrogen generation from aqueous ammonia borane solution was the same level regardless of the ruthenium contents. The catalytic activity was effectively improved via reflux procedure of the precursors through removing residual compound probably originated from CTAB with maintaining dispersion of the active ruthenium species after the procedure.

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原位合成用于硼烷氨水解的多孔二氧化硅-钌复合催化剂
本研究报告了用于水解硼烷氨的多孔二氧化硅-钌复合催化剂的原位合成。原位合成催化剂前驱体是通过溶胶-凝胶法制备的,使用三甲基溴化乙锭(CTAB)表面活性剂胶束在前驱体颗粒中形成有序的纳米孔。前驱体由直径约 20-60 纳米的球形颗粒组成,前驱体颗粒中含有直径约 2-3 纳米的纳米孔。比表面积和孔体积随着钌含量的增加而减小,而从硼烷氨水溶液中制氢的催化活性则与钌含量相同。通过对前驱体进行回流处理,去除可能来自 CTAB 的残留化合物,并在处理后保持活性钌的分散,从而有效提高了催化活性。
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来源期刊
Journal of Porous Materials
Journal of Porous Materials 工程技术-材料科学:综合
CiteScore
4.80
自引率
7.70%
发文量
203
审稿时长
2.6 months
期刊介绍: The Journal of Porous Materials is an interdisciplinary and international periodical devoted to all types of porous materials. Its aim is the rapid publication of high quality, peer-reviewed papers focused on the synthesis, processing, characterization and property evaluation of all porous materials. The objective is to establish a unique journal that will serve as a principal means of communication for the growing interdisciplinary field of porous materials. Porous materials include microporous materials with 50 nm pores. Examples of microporous materials are natural and synthetic molecular sieves, cationic and anionic clays, pillared clays, tobermorites, pillared Zr and Ti phosphates, spherosilicates, carbons, porous polymers, xerogels, etc. Mesoporous materials include synthetic molecular sieves, xerogels, aerogels, glasses, glass ceramics, porous polymers, etc.; while macroporous materials include ceramics, glass ceramics, porous polymers, aerogels, cement, etc. The porous materials can be crystalline, semicrystalline or noncrystalline, or combinations thereof. They can also be either organic, inorganic, or their composites. The overall objective of the journal is the establishment of one main forum covering the basic and applied aspects of all porous materials.
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