ZIF-8 decorated FeMo nanoparticles: H2 Production from the catalytic hydrolysis of ammonia-borane

IF 2.1 4区 环境科学与生态学 Q3 ENGINEERING, CHEMICAL Environmental Progress & Sustainable Energy Pub Date : 2024-06-09 DOI:10.1002/ep.14439
Can Yılmaz, Hüseyin Ali Yıldırım, Tuba Top, Mehmet Yurderi, Mehmet Zahmakıran
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Abstract

Ammonia-Borane (AB) is considered a promising solid hydrogen storage material due to its high hydrogen content (19.6 wt%) and its use for safe hydrogen transport. The most effective way to produce H2 from AB is to perform the hydrolysis reaction in the presence of a suitable catalyst. In this study, Fe0.2Mo0.8/ZIF-8 nanocatalyst was synthesized in two steps: (i) synthesis by following the colloidal synthesis technique by thermal decomposition of Mo(CO)6 and Fe(acac)3 in the presence of OM and ODE at high temperatures, and (ii) the resulting colloidal Fe0.2Mo0.8 NPs were decorated into ZIF-8. The as-prepared Fe0.2Mo0.8/ZIF-8 catalyst was identified using advanced characterization techniques such as ICP-OES, P-XRD, SEM, SEM–EDX, TEM, TEM-EDX, XPS, and BET. The catalytic activities of the Fe0.2Mo0.8/ZIF-8 catalyst in the hydrolysis of AB were investigated in different parameters (temperature, catalyst [Fe0.2Mo0.8] and substrate [H3NBH3] concentration, and recyclability). The results show that high crystallinity Fe0.2Mo0.8 NPs with a uniform 1.31 ± 0.13 nm distribution were formed on the ZIF-8 surface. Fe0.2Mo0.8/ZIF-8 catalyst provides a maximum H2 generation rate of 184.2 mLH2 (g catalyst)−1 (min)−1 at 343 K. This uniquely cost-effective, active and durable Fe0.2Mo0.8/ZIF-8 catalyst has strong potential for H2-based fuel cell (PEM: Proton Exchange Membrane) applications where AB is a suitable H2 carrier.

Highlights

  • FeMo NPs were synthesized by a colloidal synthesis method and decorated into ZIF-8.
  • FeMo/ZIF-8 catalyst is an active catalyst in the hydrolysis of AB.
  • FeMo/ZIF-8 catalyst showed an initial TOF value of 449.85 mol(H2)·molFe0.2Mo0.8−1·h−1 in the AB hydrolysis at 338 K.
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ZIF-8 修饰的铁钼纳米粒子:催化水解氨硼烷产生 H2
氨硼烷(AB)含氢量高(19.6 wt%),可用于安全的氢气运输,因此被认为是一种前景广阔的固体储氢材料。从 AB 中产生 H2 的最有效方法是在合适的催化剂存在下进行水解反应。本研究分两步合成了 Fe0.2Mo0.8/ZIF-8 纳米催化剂:(i) 采用胶体合成技术,在 OM 和 ODE 的存在下,通过高温热分解 Mo(CO)6 和 Fe(acac)3 合成;(ii) 将得到的 Fe0.2Mo0.8 NPs 胶体装饰到 ZIF-8 中。利用 ICP-OES、P-XRD、SEM、SEM-EDX、TEM、TEM-EDX、XPS 和 BET 等先进表征技术对制备的 Fe0.2Mo0.8/ZIF-8 催化剂进行了鉴定。研究了 Fe0.2Mo0.8/ZIF-8 催化剂在不同参数(温度、催化剂 [Fe0.2Mo0.8] 和底物 [H3NBH3] 浓度以及可回收性)下水解 AB 的催化活性。结果表明,在 ZIF-8 表面形成了高结晶度的 Fe0.2Mo0.8 NPs,其分布均匀为 1.31 ± 0.13 nm。在 343 K 条件下,Fe0.2Mo0.8/ZIF-8 催化剂的最大 H2 生成率为 184.2 mLH2 (g catalyst)-1 (min)-1。这种具有独特成本效益、活性和耐久性的 Fe0.2Mo0.8/ZIF-8 催化剂在以 AB 为合适 H2 载体的 H2 型燃料电池(PEM:质子交换膜)应用中具有很大的潜力。FeMo/ZIF-8 催化剂在 AB 的水解过程中是一种活性催化剂。FeMo/ZIF-8 催化剂在 338 K 的 AB 水解过程中显示出 449.85 mol(H2)-molFe0.2Mo0.8-1-h-1 的初始 TOF 值。
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来源期刊
Environmental Progress & Sustainable Energy
Environmental Progress & Sustainable Energy 环境科学-工程:化工
CiteScore
5.00
自引率
3.60%
发文量
231
审稿时长
4.3 months
期刊介绍: Environmental Progress , a quarterly publication of the American Institute of Chemical Engineers, reports on critical issues like remediation and treatment of solid or aqueous wastes, air pollution, sustainability, and sustainable energy. Each issue helps chemical engineers (and those in related fields) stay on top of technological advances in all areas associated with the environment through feature articles, updates, book and software reviews, and editorials.
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