Hydrogenation of Glucose to Sorbitol by Using Nickel Hydroxyapatite Catalyst

ChemCatChem Pub Date : 2024-02-03 DOI:10.1002/cctc.202301590
Paresh A. Kamble, C. P. Vinod, Virendra K. Rathod, Lakshmikantam Mannepalli
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Abstract

A series of nickel hydroxyapatite catalysts were synthesized by the co‐precipitation method followed by calcination and reduction. These catalysts were employed for the aqueous phase hydrogenation of glucose to sorbitol. The Ni‐HAP catalyst with comparatively high surface area and acid‐base strength gave high sorbitol selectivity in 1 h. Ni‐HAP‐4 catalyst with moderate Ni (3.5 wt.%) content having smaller and highly dispersed nickel particles gives an excellent yield of sorbitol, 97% in 1h. The Ni‐HAP‐4 catalyst works well with other polar protic solvents. Different characterization techniques like XRD, TEM, SEM‐EDS, BET, NH3‐TPD, and CO2‐TPD were employed to analyze the Ni‐HAP‐4 catalyst.
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使用羟基磷灰石镍催化剂将葡萄糖氢化为山梨醇
通过共沉淀法合成了一系列羟基磷灰石镍催化剂,然后进行了煅烧和还原。这些催化剂被用于水相氢化葡萄糖制山梨醇。Ni-HAP-4 催化剂的镍含量适中(3.5 wt.%),镍颗粒较小且高度分散,在 1 小时内山梨醇的产率高达 97%。Ni-HAP-4 催化剂在其他极性原生溶剂中也能很好地发挥作用。在分析 Ni-HAP-4 催化剂时采用了不同的表征技术,如 XRD、TEM、SEM-EDS、BET、NH3-TPD 和 CO2-TPD。
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ChemCatChem
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Recent Advancement in Quantum Dot Modified Layered Double Hydroxide towards Photocatalytic, Electrocatalytic, and Photoelectrochemical Applications Hydrogenation of Glucose to Sorbitol by Using Nickel Hydroxyapatite Catalyst
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