催化作用
非阻塞I/O
选择性
化学
吸附
氧气
无机化学
无定形固体
羟甲基
化学工程
氧化物
基质(水族馆)
晶体结构
活化能
降水
多相催化
混合氧化物
甲醇
光化学
尿素
作者
Yintao Song,Hang Zheng,Mengyuan Huang,Quanwei Deng,Lei Lin,Yaqi Shi,J. Li,Chenting Yang,Lei Lin,Changlong Wang,Xing Tang
摘要
ABSTRACT We have developed a highly efficient and stable non‐noble metal‐based heterogeneous catalyst for the selective oxidation of HMF to DFF. Mixed oxide catalysts with different Mn/Ni molar ratios were synthesized using the urea precipitation method. The Mn 6.6 NiO X catalyst exhibited a 95.33% HMF conversion rate and a 99.39% DFF selectivity under the conditions of 110°C, 2 h, 1 MPa O 2 , and N,N ‐dimethylformamide. Experimental results indicate that the introduction of NiO can effectively regulate the crystal structure of MnO 2 , forming an amorphous Mn─O─Ni interface, which significantly increases the specific surface area (SSA) of the catalyst while reducing the binding energy of surface lattice oxygen (O L ), promoting the generation of oxygen vacancies (O V ), and thereby enhancing the adsorption and activation capabilities of O 2 . Combined adsorption experiments and kinetic analysis revealed that Ni species preferentially anchor the hydroxymethyl group in HMF molecules, enhancing reaction selectivity. Further experiments demonstrated that the Mn 6.6 NiO x catalyst, under certain conditions, could achieve an HMF conversion rate of 87.52% and a DFF selectivity of 85.81% even at a high substrate concentration of 10 wt% HMF.
科研通智能强力驱动
Strongly Powered by AbleSci AI