A series of Mo-impregnated H\%β\% samples, with MoO\-3 loading in H\%β\% zeolite in the mass fraction range of 0\^5%\_6\^0%, were studied by means of XRD and IR in order to characterize their structures. Mo/H\%β\% ...A series of Mo-impregnated H\%β\% samples, with MoO\-3 loading in H\%β\% zeolite in the mass fraction range of 0\^5%\_6\^0%, were studied by means of XRD and IR in order to characterize their structures. Mo/H\%β\% samples′ crystallinity almost linearly decreases with increasing the amount of MoO\-3 loaded. The IR spectra and XRD patterns suggest that the progressive destabilization of the H\%β\% zeolite structure is caused by increasing Mo loading in (MoO\-3+H\%β\% zeolite). During the calcination, Al\-2(MoO\-4)\-3 formed from the dealumination of H\%β\% zeolite, causes the substantially partial breakdown of the zeolite framework when the Mo loading in MoO\-3+H\%β\% is relatively high.展开更多
A series of 3.0Mo/(Hβ+γ-Al_(2)O_(3))samples withγ-Al_(2)O_(3)contents in the range of 0_100%(mass fraction)was studied by means of XRD,NH_(3)-TPD,TPR and BET determinations for characterizing their structures.The H...A series of 3.0Mo/(Hβ+γ-Al_(2)O_(3))samples withγ-Al_(2)O_(3)contents in the range of 0_100%(mass fraction)was studied by means of XRD,NH_(3)-TPD,TPR and BET determinations for characterizing their structures.The Hβzeolite structure in the 3.0Mo/Hβsample can be effectively stabilized by adding someγ-Al_(2)O_(3)to Hβzeolite.γ-Al_(2)O_(3)mainly favors the formation of polymolybdate or multilayered Mo oxide,while Hβmainly forms the Al_(2)(MoO_(4))_(3)species,as evaluated by the TPR technique.When used as the catalyst for the metathesis of butylene-2 and ethylene to propylene,there exists a close correlation between the specific surface area and stability of the catalyst.The specific surface area of the catalyst shows the maximum when{(Hβ+}γ-Al_(2)O_(3))contains 30%γ-Al_(2)O_(3),which is in agreement with that of the time needed for the reaction stablization.In the case of maximum surface area,the rate of coke deposition is the minimum.展开更多
A series of Y zeolites exchanged with different amount of cerium and lanthanum cations were investigated. Comprehensive routine analysis tools including X-ray photoelectron spectroscopy(XPS), X-ray fluorescence(XRF...A series of Y zeolites exchanged with different amount of cerium and lanthanum cations were investigated. Comprehensive routine analysis tools including X-ray photoelectron spectroscopy(XPS), X-ray fluorescence(XRF), X-ray diffraction(XRD) and Py-Fourier transform infrared spectroscopy(Py-FTIR) were used to identify the cation location, and the result was verified via XRD Rietveld study. The results revealed that almost all the RE cations in RE-4, most cations in RE-8 to RE-14 and part of cations in RE-16 were located in the sodalite cage. The Al^(IV)/(Al^V+Al^(VI)) values revealed by ^(27)Al MAS NMR spectra, the silicon aluminum ratio of the framework(SARF) values deduced from ^(29)Si MAS NMR spectra and XRD, and hydroxyl amount were reasonably in accordance with the location and content of rare earth cations. The hydrothermal stability derived from in situ XRD investigation and catalyst activity provided by micro-activity test manifested that samples RE-8 to RE-14 exhibited better performances than RE-4 and RE-16, among which RE-12 had the best properties. The phenomena were interpreted by the cation location and structural properties.展开更多
In this study,a novel deposition technique that utilizes diethylzinc(C4H10ZnO)with H2O to form a ZnO adhesion layer was proposed.This technique was followed by the deposition of vaporized nickel(II)1-dimethylamino-2-m...In this study,a novel deposition technique that utilizes diethylzinc(C4H10ZnO)with H2O to form a ZnO adhesion layer was proposed.This technique was followed by the deposition of vaporized nickel(II)1-dimethylamino-2-methyl-2-butoxide(Ni(dmamb)2)and H2 gas to facilitate the deposit of uniform layers of nickel on the ZnO adhesion layer using atomic layer deposition.Deposition temperatures ranged from 220 to 300°C.Thickness,composition,and crystallographic structure results were analyzed using spectroscopic ellipsometry,scanning electron microscopy(SEM),X-ray photoelectron spectroscopy(XPS),and X-ray diffraction(XRD),respectively.An average growth rate of approximately 0.0105 angstroms per cycle at 260°C was observed via ellipsometry.Uniform deposition of ZnO with less than 1%of Ni was displayed by utilizing the elemental analysis function via SEM,thereby providing high-quality images.XPS revealed ionizations consistent with nickel and ZnO through the kinetic and binding energies of each detected electron.XRD provided supplemental information regarding the validity of ZnO by exhibiting crystalline attributes,revealing the presence of its hexagonal wurtzite structure.展开更多
基金Supported by the National Natural Science Foundation of China(No.2 0 30 30 19) and the National"973"Project of China(No.2 0 0 3CB6 15 80 2 )
文摘A series of Mo-impregnated H\%β\% samples, with MoO\-3 loading in H\%β\% zeolite in the mass fraction range of 0\^5%\_6\^0%, were studied by means of XRD and IR in order to characterize their structures. Mo/H\%β\% samples′ crystallinity almost linearly decreases with increasing the amount of MoO\-3 loaded. The IR spectra and XRD patterns suggest that the progressive destabilization of the H\%β\% zeolite structure is caused by increasing Mo loading in (MoO\-3+H\%β\% zeolite). During the calcination, Al\-2(MoO\-4)\-3 formed from the dealumination of H\%β\% zeolite, causes the substantially partial breakdown of the zeolite framework when the Mo loading in MoO\-3+H\%β\% is relatively high.
基金the National Natural Science Foundation of China(No.20303019)the National 973 Project of China(No.2003CB615802).
文摘A series of 3.0Mo/(Hβ+γ-Al_(2)O_(3))samples withγ-Al_(2)O_(3)contents in the range of 0_100%(mass fraction)was studied by means of XRD,NH_(3)-TPD,TPR and BET determinations for characterizing their structures.The Hβzeolite structure in the 3.0Mo/Hβsample can be effectively stabilized by adding someγ-Al_(2)O_(3)to Hβzeolite.γ-Al_(2)O_(3)mainly favors the formation of polymolybdate or multilayered Mo oxide,while Hβmainly forms the Al_(2)(MoO_(4))_(3)species,as evaluated by the TPR technique.When used as the catalyst for the metathesis of butylene-2 and ethylene to propylene,there exists a close correlation between the specific surface area and stability of the catalyst.The specific surface area of the catalyst shows the maximum when{(Hβ+}γ-Al_(2)O_(3))contains 30%γ-Al_(2)O_(3),which is in agreement with that of the time needed for the reaction stablization.In the case of maximum surface area,the rate of coke deposition is the minimum.
基金Project supported by the Foundation of SINOPEC(111015)
文摘A series of Y zeolites exchanged with different amount of cerium and lanthanum cations were investigated. Comprehensive routine analysis tools including X-ray photoelectron spectroscopy(XPS), X-ray fluorescence(XRF), X-ray diffraction(XRD) and Py-Fourier transform infrared spectroscopy(Py-FTIR) were used to identify the cation location, and the result was verified via XRD Rietveld study. The results revealed that almost all the RE cations in RE-4, most cations in RE-8 to RE-14 and part of cations in RE-16 were located in the sodalite cage. The Al^(IV)/(Al^V+Al^(VI)) values revealed by ^(27)Al MAS NMR spectra, the silicon aluminum ratio of the framework(SARF) values deduced from ^(29)Si MAS NMR spectra and XRD, and hydroxyl amount were reasonably in accordance with the location and content of rare earth cations. The hydrothermal stability derived from in situ XRD investigation and catalyst activity provided by micro-activity test manifested that samples RE-8 to RE-14 exhibited better performances than RE-4 and RE-16, among which RE-12 had the best properties. The phenomena were interpreted by the cation location and structural properties.
基金National Aeronautics and Space Administration,80NSS C19M0196,JIAJUN XU,80NSSC23M0198,JIAJUN XUOffice of Energy Efficiency and Renewable Energy,DEEE0010861,JIAJUN XUDirectorate for Education and Human Resources,1914751,JIAJUN XU,National Science Foundation,1914751,JIAJUN XU。
文摘In this study,a novel deposition technique that utilizes diethylzinc(C4H10ZnO)with H2O to form a ZnO adhesion layer was proposed.This technique was followed by the deposition of vaporized nickel(II)1-dimethylamino-2-methyl-2-butoxide(Ni(dmamb)2)and H2 gas to facilitate the deposit of uniform layers of nickel on the ZnO adhesion layer using atomic layer deposition.Deposition temperatures ranged from 220 to 300°C.Thickness,composition,and crystallographic structure results were analyzed using spectroscopic ellipsometry,scanning electron microscopy(SEM),X-ray photoelectron spectroscopy(XPS),and X-ray diffraction(XRD),respectively.An average growth rate of approximately 0.0105 angstroms per cycle at 260°C was observed via ellipsometry.Uniform deposition of ZnO with less than 1%of Ni was displayed by utilizing the elemental analysis function via SEM,thereby providing high-quality images.XPS revealed ionizations consistent with nickel and ZnO through the kinetic and binding energies of each detected electron.XRD provided supplemental information regarding the validity of ZnO by exhibiting crystalline attributes,revealing the presence of its hexagonal wurtzite structure.
