The modification of HZSM-5 zeolite with phosphorus and steam has been studied. Results show that 1% phosphorus and steam modified HZSM-5 has the highest catalytic activity for n-heptane. Physicochemical and catalytic ...The modification of HZSM-5 zeolite with phosphorus and steam has been studied. Results show that 1% phosphorus and steam modified HZSM-5 has the highest catalytic activity for n-heptane. Physicochemical and catalytic properties of 1% phosphorus and steam modified HZSM-5 zeolites have been investigated. The X-ray diffraction (XRD) results exhibit that there is considerable variation in the relative intensity of the individual diffraction peaks. The acidity of the samples decreases with an increase in the steaming temperature, which is determined by the IR of adsorbed pyridine and temperature programmed desorption (TPD) of ammonia. The oxidation state of phosphorus shown by XPS is +5, and a model for surface structure modification is proposed. The nitrogen adsorption isotherm for all samples is a combination of type I and type IV, all hysteresis loops resemble the H4-type. The density functional and cluster model methods have been invoked to select the phosphorus grafting model, and it was found that the phosphorus grafting model were more probable in the form of the terminal oxygen coordinating with aluminum.展开更多
The Hartree-Fock method has been employed to investigate the electronic structures of EMIM^+(1-ethyl-3-methyl-imidazolium^+), CuCl2^-, Cu2Cl3^-, CuCl3^2-, EMIM+^-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2- pa...The Hartree-Fock method has been employed to investigate the electronic structures of EMIM^+(1-ethyl-3-methyl-imidazolium^+), CuCl2^-, Cu2Cl3^-, CuCl3^2-, EMIM+^-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2- pairs. Full optimization and frequency analyses of EMIM^+, CuCl2^-, Cu2Cl3^-, CuC13^-, eight initial EMIM^+-CuCl2^-, six EMIM^+-Cu2Cl3^-, and four EMIM^+-CuCl3^2- geometries have been carried out using Gaussian-94 soft-package at 6-31+G(d,p) basis set level for hydrogen, carbon, nitrogen, chlorine atoms and Hay-Wadt effective core potential for copper atom. The electronic structures of lowest energy of EMIM^+-CuCl2^-, EMIM+-Cu2Cl3^-, EMIM^+-CuCl3^2-, single EMIM^+, CuCl2^-, Cu2Cl3^-, and CuCl3^2- have been comparatively studied. The calculated results showed that EMIM^+-CuCl2^- pair conformer of lowest energy was five ring parallel to Cl-Cu-Cl with 3.2A distance, EMIM^+-CuCl3^2- pair conformer of lowest energy was five ring parallel to CuCl3^2-plane with 3.4A distance, and the optimized EMIM^+-Cu2Cl3^- pair conformer of lowest energy was five ring perpendicular to Cl-Cu-Cl-Cu-Cl plane with 3.0A distance between the terminal Cl atoms and the 5-ring of EMIM^+. The cohesion between cations and anions is brought about by C-H. C1 hydrogen bonds that are reinforced by charge assistance. The frequency analyses suggested that all stationary points are minimum because of no appearing of imaginary frequency. The assigned frequencies were in agreement with the experimental report. The low energy of interaction because of the bulkyasymmetry of EMIM+ and the charge dispersion of cation and anion leads to the low melting point of the ionic liquids, EMIM^+-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2-. The interaction energy of EMIM^+-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2- is 309.0 kJ/mol, 316.8 kJ/mol, and 320.2 kJ/mol, respectively. The relationship of interaction energy via distance between cations and anions was also investigated by single point energy scan.展开更多
文摘The modification of HZSM-5 zeolite with phosphorus and steam has been studied. Results show that 1% phosphorus and steam modified HZSM-5 has the highest catalytic activity for n-heptane. Physicochemical and catalytic properties of 1% phosphorus and steam modified HZSM-5 zeolites have been investigated. The X-ray diffraction (XRD) results exhibit that there is considerable variation in the relative intensity of the individual diffraction peaks. The acidity of the samples decreases with an increase in the steaming temperature, which is determined by the IR of adsorbed pyridine and temperature programmed desorption (TPD) of ammonia. The oxidation state of phosphorus shown by XPS is +5, and a model for surface structure modification is proposed. The nitrogen adsorption isotherm for all samples is a combination of type I and type IV, all hysteresis loops resemble the H4-type. The density functional and cluster model methods have been invoked to select the phosphorus grafting model, and it was found that the phosphorus grafting model were more probable in the form of the terminal oxygen coordinating with aluminum.
文摘The Hartree-Fock method has been employed to investigate the electronic structures of EMIM^+(1-ethyl-3-methyl-imidazolium^+), CuCl2^-, Cu2Cl3^-, CuCl3^2-, EMIM+^-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2- pairs. Full optimization and frequency analyses of EMIM^+, CuCl2^-, Cu2Cl3^-, CuC13^-, eight initial EMIM^+-CuCl2^-, six EMIM^+-Cu2Cl3^-, and four EMIM^+-CuCl3^2- geometries have been carried out using Gaussian-94 soft-package at 6-31+G(d,p) basis set level for hydrogen, carbon, nitrogen, chlorine atoms and Hay-Wadt effective core potential for copper atom. The electronic structures of lowest energy of EMIM^+-CuCl2^-, EMIM+-Cu2Cl3^-, EMIM^+-CuCl3^2-, single EMIM^+, CuCl2^-, Cu2Cl3^-, and CuCl3^2- have been comparatively studied. The calculated results showed that EMIM^+-CuCl2^- pair conformer of lowest energy was five ring parallel to Cl-Cu-Cl with 3.2A distance, EMIM^+-CuCl3^2- pair conformer of lowest energy was five ring parallel to CuCl3^2-plane with 3.4A distance, and the optimized EMIM^+-Cu2Cl3^- pair conformer of lowest energy was five ring perpendicular to Cl-Cu-Cl-Cu-Cl plane with 3.0A distance between the terminal Cl atoms and the 5-ring of EMIM^+. The cohesion between cations and anions is brought about by C-H. C1 hydrogen bonds that are reinforced by charge assistance. The frequency analyses suggested that all stationary points are minimum because of no appearing of imaginary frequency. The assigned frequencies were in agreement with the experimental report. The low energy of interaction because of the bulkyasymmetry of EMIM+ and the charge dispersion of cation and anion leads to the low melting point of the ionic liquids, EMIM^+-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2-. The interaction energy of EMIM^+-CuCl2^-, EMIM^+-Cu2Cl3^-, and EMIM^+-CuCl3^2- is 309.0 kJ/mol, 316.8 kJ/mol, and 320.2 kJ/mol, respectively. The relationship of interaction energy via distance between cations and anions was also investigated by single point energy scan.
