Cs Rb V catalyst for H 2SO 4 production at low temperature was prepared by use of metallurgical waste liquid (MWL) containing alkali metal salts. The result showed that X (SO 2)=24 8% on the catalyst prepared directly...Cs Rb V catalyst for H 2SO 4 production at low temperature was prepared by use of metallurgical waste liquid (MWL) containing alkali metal salts. The result showed that X (SO 2)=24 8% on the catalyst prepared directly with MWL can be reached at 410 ℃, and if n (Na)/ n (V) has been adjusted properly, X (SO 2) can be increased to 35 6% at the same tempertaure. When MWL has been refined and mixed with other liquid material, it can make the catalyst activity at low temperature even higher. From the DTA result of the catalyst prepared from the refined liquid, it is found that both the endothermic apices and exothermic apices shift to low temperature obviously, indicating that the catalyst possesses higher activity at low temperature.展开更多
Cs-promoted Mo-Bi-Co-Fe-Ce-O catalyst for the selective oxidation of isobutylene to methacrolein had been studied in a fixed bed micro-reactor. The selectivity to methacrolein was significantly improved by the additio...Cs-promoted Mo-Bi-Co-Fe-Ce-O catalyst for the selective oxidation of isobutylene to methacrolein had been studied in a fixed bed micro-reactor. The selectivity to methacrolein was significantly improved by the addition of Cs, which could probably enhance the dehydrogenation ability and weaken the oxygenation ability of the catalyst based on temperature programmed reduction (TPR) analysis investigation. The kinetic studies indicated that the oxidation of isobutylene to methacrolein followed the first-order kinetic behavior.展开更多
A GaAs/GaAlAs transmission photocathode surface topography is examined with a scanning electron microscope(SEM) in the secondary emission mode.The contributions of photocathode surface topography to mean transverse en...A GaAs/GaAlAs transmission photocathode surface topography is examined with a scanning electron microscope(SEM) in the secondary emission mode.The contributions of photocathode surface topography to mean transverse energy of electrons emitted from the photocathode are calculated. Measurement is made of the variation of mean transverse emission energy with activating time during the course of activation. It is shown that the scattering of the photoelectrons in the Cs/O layer is the primary cause of the unexpectant high values of the mean transverse energy of electrons emitted from GaAs/GaAlAs photocathode. A method is proposed for the reduction of the mean transverse energy of electrons emitted from the photocathode.展开更多
p-Quinols are ubiquitous structural motifs of various natural products and pharmaceutical compounds,and versatile building blocks in synthetic chemistry.The reported methods for the synthesis of p-quinol require stoic...p-Quinols are ubiquitous structural motifs of various natural products and pharmaceutical compounds,and versatile building blocks in synthetic chemistry.The reported methods for the synthesis of p-quinol require stoichiometric amounts of oxidants.Molecular oxygen is considered as an ideal oxidant due to its natural,inexpensive,and environmentally friendly characteristics.During the ongoing research of C–H bond hydroxylation,we found that multi-alkyl phenols could react with molecular oxygen under mild conditions.Herein,we describe an efficient oxidative de-aromatization of multi-alkyl phenols to p-quinols.1 atm of molecular oxygen was used as the oxidant.Many multi-alkyl phenols could react smoothly at room temperature.Isotopic labeling experiment was also performed,and the result proved that the oxygen atom in the produced hydroxyl group is from molecular oxygen.展开更多
文摘Cs Rb V catalyst for H 2SO 4 production at low temperature was prepared by use of metallurgical waste liquid (MWL) containing alkali metal salts. The result showed that X (SO 2)=24 8% on the catalyst prepared directly with MWL can be reached at 410 ℃, and if n (Na)/ n (V) has been adjusted properly, X (SO 2) can be increased to 35 6% at the same tempertaure. When MWL has been refined and mixed with other liquid material, it can make the catalyst activity at low temperature even higher. From the DTA result of the catalyst prepared from the refined liquid, it is found that both the endothermic apices and exothermic apices shift to low temperature obviously, indicating that the catalyst possesses higher activity at low temperature.
基金国家自然科学基金,国家高技术研究发展计划(863计划),the Open Foundation of State Key Laboratory of Heavy Oil Processing
文摘Cs-promoted Mo-Bi-Co-Fe-Ce-O catalyst for the selective oxidation of isobutylene to methacrolein had been studied in a fixed bed micro-reactor. The selectivity to methacrolein was significantly improved by the addition of Cs, which could probably enhance the dehydrogenation ability and weaken the oxygenation ability of the catalyst based on temperature programmed reduction (TPR) analysis investigation. The kinetic studies indicated that the oxidation of isobutylene to methacrolein followed the first-order kinetic behavior.
文摘A GaAs/GaAlAs transmission photocathode surface topography is examined with a scanning electron microscope(SEM) in the secondary emission mode.The contributions of photocathode surface topography to mean transverse energy of electrons emitted from the photocathode are calculated. Measurement is made of the variation of mean transverse emission energy with activating time during the course of activation. It is shown that the scattering of the photoelectrons in the Cs/O layer is the primary cause of the unexpectant high values of the mean transverse energy of electrons emitted from GaAs/GaAlAs photocathode. A method is proposed for the reduction of the mean transverse energy of electrons emitted from the photocathode.
基金supported by the National Natural Science Foundation of China(21325206,21172006)the Key Laboratory of Oil and Gas Fine Chemicals(XJDX0908-2013-2)
文摘p-Quinols are ubiquitous structural motifs of various natural products and pharmaceutical compounds,and versatile building blocks in synthetic chemistry.The reported methods for the synthesis of p-quinol require stoichiometric amounts of oxidants.Molecular oxygen is considered as an ideal oxidant due to its natural,inexpensive,and environmentally friendly characteristics.During the ongoing research of C–H bond hydroxylation,we found that multi-alkyl phenols could react with molecular oxygen under mild conditions.Herein,we describe an efficient oxidative de-aromatization of multi-alkyl phenols to p-quinols.1 atm of molecular oxygen was used as the oxidant.Many multi-alkyl phenols could react smoothly at room temperature.Isotopic labeling experiment was also performed,and the result proved that the oxygen atom in the produced hydroxyl group is from molecular oxygen.