It is necessary to find an efficient selection method to pre-analyze the gas electric strength from the perspective of molecule structure and the properties for finding the alternative gases to sulphur hexafluoride (...It is necessary to find an efficient selection method to pre-analyze the gas electric strength from the perspective of molecule structure and the properties for finding the alternative gases to sulphur hexafluoride (SF6). As the properties of gas are determined by the gas molecule structure, the research on the relationship between the gas molecule structure and the electric strength can contribute to the gas pre-screening and new gas development. In this paper, we calculated the vertical electron affinity, molecule orbits distribution and orbits energy of gas molecules by the means of density functional theory (DFT) for the typical structures of organic gases and compared their electric strengths. By this method, we find part of the key properties of the molecule which are related to the electric strength, including the vertical electron affinity, the lowest unoccupied molecule orbit (LUMO) energy, molecule orbits distribution and negativeion system energy. We also listed some molecule groups such as unsaturated carbons double bonds (C=C) and carbonitrile bonds (C=N) which have high electric strength theoretically by this method.展开更多
The effects of structure parameters, such as molecular structure, segment kinds, molecular weight, and organic functional groups, on the performance of polyacrylic acid superplasticizer were discussed. According to th...The effects of structure parameters, such as molecular structure, segment kinds, molecular weight, and organic functional groups, on the performance of polyacrylic acid superplasticizer were discussed. According to the differences of chain sections, functional groups, eic, polyacrylic acid superplasticizer could be divided into A, B, C three parts. Among them, A chain section included sulfonic acid groups, B chain section carboxyl groups, C chain section polyester. Polyacrylic acid superplasticizers with different matching of A, B, C chain sections, different length of C chain section and different molecular weights were synthesized by acrylic acid, polyethylene glycol, sodium methyl allylsulfonate; the relation between the molecular structure and perfolxnance was also studied. The expetimental results indicate that the water-reduction ratio increases obviously with the increment of the proportion of sodium methyl allylsulfonate chain section in the molecular; the slump retention increases greatly with the increment of the proportion of acrylic acid chain section; the dispersion of cement particles increases with the increment of the chain length of polyethylene glycol; when the molecular weight is in the range of 5000, the dispersion and slump retentibity increase with the increment of the average molecular weight of polymers.展开更多
The reactivity of carbonyl iron cluster with alkynes has been studied by the thermal reaction of Fe_3(CO)_(12) with R-C≡C-R'(R = Fc(Ferrocenyl); R′ = Ph(Phenyl), Fc, H). The hexacarbonyldiiron cluster wit...The reactivity of carbonyl iron cluster with alkynes has been studied by the thermal reaction of Fe_3(CO)_(12) with R-C≡C-R'(R = Fc(Ferrocenyl); R′ = Ph(Phenyl), Fc, H). The hexacarbonyldiiron cluster with ferracyclopentadiene ring(μ_2, η~4-C_4Ph_4)Fe_2(CO)_6(1) and one tetraphenyl substituted cyclopentadienone(Ph_4C_4CO)(2) were simultaneously obtained by the reaction of Fe_3(CO)_(12) with alkyne(Ph-C≡C-Ph). Only one ferrole cluster(μ_2, η~4-C_4Fc_2H_2)Fe_2(CO)_6(3) was separated by using Fc-C≡C-H as alkyne. One tri-carbonyl iron complex(η~4-C_4Fc_4CO)Fe(CO)_3(4) and an unexpected new cyclic ketone compound 2,2,4,5-tetraferrocenylcyclopenta-4-en-1,3-di-one [Fc_4C_3(CO)_2](5) were obtained by using Fc-C≡C-Fc as alkyne. A new complex(η4-2,4-diphenyl-3,5-diferrocenylcyclopenta-2,4-dien-1-one)-tricarbonyl iron(η~4-C_4Ph_2Fc_2CO)Fe(CO)_3(6) was synthesized by the reaction of Fe_3(CO)_(12) with Fc-C≡C-Ph. The structures of compounds 1~6 were determined by X-ray single-crystal diffraction and spectroscopic characterization. The crystal structures of two new compounds 5 and 6 were analyzed. Our experimental results reveal the structural models of the reaction products are affected by the kinds of substituents from alkynes R-C≡C-R′.展开更多
Aerospace aircraft has significantly improved the life quality of human beings and extended the capability of space explosion since its appearance in 1903,in which liquid propellants or fuels provide the key power sou...Aerospace aircraft has significantly improved the life quality of human beings and extended the capability of space explosion since its appearance in 1903,in which liquid propellants or fuels provide the key power source.For jet fuels,its property of energy density plays an important role in determining the flight range,load,and performance of the aircraft.Therefore,the design and fabrication of high-energy-density(HED)fuels attract more and more attention from researchers all over the world.Herein,we briefly introduce the development of liquid jet fuels and HED fuels and demonstrate the future development of HED fuels.To further improve the energy density of fuel,the approaches of design and construction of multi-cyclic and stained molecule structures are proposed.To break through the density limit of hydrocarbon fuels,the addition of energetic nanoparticles in HED fuels to produce nanofluid or gelled fuels may provide a facile and effective method to significantly increase the energy density.This work provides the perspective for the development of HED fuels for advanced aircrafts.展开更多
The geometries of molecules H_3AXAH_3(X=O,S,Se and A=C,Si)have been optimized using STO-3G ab initio calculations and gradient method and the results are in good agreement with reported experimental values.From the ST...The geometries of molecules H_3AXAH_3(X=O,S,Se and A=C,Si)have been optimized using STO-3G ab initio calculations and gradient method and the results are in good agreement with reported experimental values.From the STO-3G optimized geometries,we have also calculated the electronic structures of these molecules using 4-31G and 6-31G basis sets to obtain the MO energies. atomic net charges and dipole moments.The ionization potentials calculated by 6-31G basis set are in good agreement with experimental values.展开更多
A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measureme...A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measurements show a pair of sharp peaks at 225 K(heating) and 210 K(cooling),indicating the phase transition is first-order.Dielectric anomalies observed at 225 K(heating)and 210 K(cooling) further confirm the phase transition.The crystal structures determined at 298 K and123 K are both triclinic in P 1.The most distinct difference between room-temperature and lowtemperature structures is the order–disorder transition of the host 18-crown-6 molecule,which is the driving force of the phase transition.展开更多
Under the synergistic effect of molecular design and devices engineering, small molecular organic solar cells have presented an unstoppable tendency for rapid development with putting forward donor- acceptor (D-A) s...Under the synergistic effect of molecular design and devices engineering, small molecular organic solar cells have presented an unstoppable tendency for rapid development with putting forward donor- acceptor (D-A) structures. Up to now, the highest power conversion efficiency of small molecules has exceeded 11%, comparable to that of polymers. In this review, we summarize the high performance small molecule donors in various classes of typical donor-acceptor (D-A) structures and discuss their relationships briefly.展开更多
基金supported by National Natural Science Foundation of China(Nos.51177101 and 51337006)
文摘It is necessary to find an efficient selection method to pre-analyze the gas electric strength from the perspective of molecule structure and the properties for finding the alternative gases to sulphur hexafluoride (SF6). As the properties of gas are determined by the gas molecule structure, the research on the relationship between the gas molecule structure and the electric strength can contribute to the gas pre-screening and new gas development. In this paper, we calculated the vertical electron affinity, molecule orbits distribution and orbits energy of gas molecules by the means of density functional theory (DFT) for the typical structures of organic gases and compared their electric strengths. By this method, we find part of the key properties of the molecule which are related to the electric strength, including the vertical electron affinity, the lowest unoccupied molecule orbit (LUMO) energy, molecule orbits distribution and negativeion system energy. We also listed some molecule groups such as unsaturated carbons double bonds (C=C) and carbonitrile bonds (C=N) which have high electric strength theoretically by this method.
基金the Western Region Traffic Construction Technology Program of the Ministry of Communications of China(No.2007-088)
文摘The effects of structure parameters, such as molecular structure, segment kinds, molecular weight, and organic functional groups, on the performance of polyacrylic acid superplasticizer were discussed. According to the differences of chain sections, functional groups, eic, polyacrylic acid superplasticizer could be divided into A, B, C three parts. Among them, A chain section included sulfonic acid groups, B chain section carboxyl groups, C chain section polyester. Polyacrylic acid superplasticizers with different matching of A, B, C chain sections, different length of C chain section and different molecular weights were synthesized by acrylic acid, polyethylene glycol, sodium methyl allylsulfonate; the relation between the molecular structure and perfolxnance was also studied. The expetimental results indicate that the water-reduction ratio increases obviously with the increment of the proportion of sodium methyl allylsulfonate chain section in the molecular; the slump retention increases greatly with the increment of the proportion of acrylic acid chain section; the dispersion of cement particles increases with the increment of the chain length of polyethylene glycol; when the molecular weight is in the range of 5000, the dispersion and slump retentibity increase with the increment of the average molecular weight of polymers.
基金supported by the National Natural Science Foundation of China(Nos.21266019,21062011 and 21462029)Inner Mongolia Autonomous Region Higher Scientific Research Project(NJZY14060)
文摘The reactivity of carbonyl iron cluster with alkynes has been studied by the thermal reaction of Fe_3(CO)_(12) with R-C≡C-R'(R = Fc(Ferrocenyl); R′ = Ph(Phenyl), Fc, H). The hexacarbonyldiiron cluster with ferracyclopentadiene ring(μ_2, η~4-C_4Ph_4)Fe_2(CO)_6(1) and one tetraphenyl substituted cyclopentadienone(Ph_4C_4CO)(2) were simultaneously obtained by the reaction of Fe_3(CO)_(12) with alkyne(Ph-C≡C-Ph). Only one ferrole cluster(μ_2, η~4-C_4Fc_2H_2)Fe_2(CO)_6(3) was separated by using Fc-C≡C-H as alkyne. One tri-carbonyl iron complex(η~4-C_4Fc_4CO)Fe(CO)_3(4) and an unexpected new cyclic ketone compound 2,2,4,5-tetraferrocenylcyclopenta-4-en-1,3-di-one [Fc_4C_3(CO)_2](5) were obtained by using Fc-C≡C-Fc as alkyne. A new complex(η4-2,4-diphenyl-3,5-diferrocenylcyclopenta-2,4-dien-1-one)-tricarbonyl iron(η~4-C_4Ph_2Fc_2CO)Fe(CO)_3(6) was synthesized by the reaction of Fe_3(CO)_(12) with Fc-C≡C-Ph. The structures of compounds 1~6 were determined by X-ray single-crystal diffraction and spectroscopic characterization. The crystal structures of two new compounds 5 and 6 were analyzed. Our experimental results reveal the structural models of the reaction products are affected by the kinds of substituents from alkynes R-C≡C-R′.
基金financially supported by the National Natural Science Foundation of China(No.21978200)Scientific Research Projects of the Ministry of Education of China(No.6141A02033522)。
文摘Aerospace aircraft has significantly improved the life quality of human beings and extended the capability of space explosion since its appearance in 1903,in which liquid propellants or fuels provide the key power source.For jet fuels,its property of energy density plays an important role in determining the flight range,load,and performance of the aircraft.Therefore,the design and fabrication of high-energy-density(HED)fuels attract more and more attention from researchers all over the world.Herein,we briefly introduce the development of liquid jet fuels and HED fuels and demonstrate the future development of HED fuels.To further improve the energy density of fuel,the approaches of design and construction of multi-cyclic and stained molecule structures are proposed.To break through the density limit of hydrocarbon fuels,the addition of energetic nanoparticles in HED fuels to produce nanofluid or gelled fuels may provide a facile and effective method to significantly increase the energy density.This work provides the perspective for the development of HED fuels for advanced aircrafts.
基金Work supported by the National Natural Science Foundation of China.
文摘The geometries of molecules H_3AXAH_3(X=O,S,Se and A=C,Si)have been optimized using STO-3G ab initio calculations and gradient method and the results are in good agreement with reported experimental values.From the STO-3G optimized geometries,we have also calculated the electronic structures of these molecules using 4-31G and 6-31G basis sets to obtain the MO energies. atomic net charges and dipole moments.The ionization potentials calculated by 6-31G basis set are in good agreement with experimental values.
基金supported by the National Natural Science Foundation of China (No. 21101025)
文摘A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measurements show a pair of sharp peaks at 225 K(heating) and 210 K(cooling),indicating the phase transition is first-order.Dielectric anomalies observed at 225 K(heating)and 210 K(cooling) further confirm the phase transition.The crystal structures determined at 298 K and123 K are both triclinic in P 1.The most distinct difference between room-temperature and lowtemperature structures is the order–disorder transition of the host 18-crown-6 molecule,which is the driving force of the phase transition.
基金supported by the National Natural Science Foundation of China (Nos. 21474022, 51603051)Youth Innovation Promotion Association CAS and Beijing Nova Program (No. Z171100001117062)the Chinese Academy of Sciences
文摘Under the synergistic effect of molecular design and devices engineering, small molecular organic solar cells have presented an unstoppable tendency for rapid development with putting forward donor- acceptor (D-A) structures. Up to now, the highest power conversion efficiency of small molecules has exceeded 11%, comparable to that of polymers. In this review, we summarize the high performance small molecule donors in various classes of typical donor-acceptor (D-A) structures and discuss their relationships briefly.
