The shear property of the thermoelectric material Bi2Te3 is inextricably linked with its layer structure. By the molecular dynamics method, the mechanism of shearing deformation was studied in this paper. In the simul...
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The shear property of the thermoelectric material Bi2Te3 is inextricably linked with its layer structure. By the molecular dynamics method, the mechanism of shearing deformation was studied in this paper. In the simulation,cubic single-crystal simulation cells with different layer directions inside were adopted, ensuring that the caxis of crystal lattice can be along, across and 45o deviated from the shear stress. Compared with all the calculation models, the results show that when the shear stress increases, slip occurs along the Te1-Te1 adjacent layers which are connected by the weak van der Waals bonding, and ultimately leads to structural fracture. Furthermore, size effect and loading modes can also impact the behavior of shearing deformation, however, in very different ways. Future efforts should be focused on the influence of the creation and motion of defectsduring the deformation as well as temperature effect and strain rate effect.
Rare earth metal oxides(REMO) as cathode electrocatalysts in direct borohydride fuel cell(DBFC) were *** REMO electrocatalysts tested showed favorable activity to the oxygen electro-reduction reaction and strong t...
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Rare earth metal oxides(REMO) as cathode electrocatalysts in direct borohydride fuel cell(DBFC) were *** REMO electrocatalysts tested showed favorable activity to the oxygen electro-reduction reaction and strong tolerance to the attack of BH 4-in alkaline *** simple membraneless DBFCs using REMO as cathode electrocatalyst and using hydrogen storage alloy as anodic electrocatalyst exhibited an open circuit of about 1 V and peak power of above 60 mW/cm *** DBFC using Sm 2 O 3 as cathode electrocatalyst showed a relatively better *** maximal power density of 76.2 mW/cm 2 was obtained at the cell voltage of 0.52 V.
Highly ordered and periodic mesoporous Nafion membranes with controlled structural symmetries including 2D hexagonal (2D-H),3D face-centered (3D-FC),3D cubic-bicontinuous (3D-CB) and 3D body-centered (3D-BC) have been...
Highly ordered and periodic mesoporous Nafion membranes with controlled structural symmetries including 2D hexagonal (2D-H),3D face-centered (3D-FC),3D cubic-bicontinuous (3D-CB) and 3D body-centered (3D-BC) have been successfully synthesized by a novel silica colloidal mediated self-assembly *** them,2D-H and 3D-CB structured Nafion possesses the highest proton conductivities,reaching 0.051 S cm-1,4 times better than 0.013 S cm-1 of pristine Nafion 112 under conditions of 40%RH and *** present study demonstrates that silica colloidal mediated self-assembly is a powerful technique to fabricate Nafion proton exchange membranes with highly ordered and controlled structural symmetries especially for fuel cells operated in low humidity conditions.
Stainless steels are the promising candidate materials for bipolar plate of polymer electrolyte membrane fuel cell (PEMFC) due to their high conductivity,low material and production costs,ease stamping manufacture and...
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Stainless steels are the promising candidate materials for bipolar plate of polymer electrolyte membrane fuel cell (PEMFC) due to their high conductivity,low material and production costs,ease stamping manufacture and superior mechanical ***,their interfacial contact resistances (ICR) are high and corrosion resistances are not at desired levels for real PEMFC working conditions.
Cadmium sulphide (CdS) is a promising material to produce hydrogen because of its narrow band gap, abundance and simple preparation *** we know, element-doped CdS and special nanostructure of CdS has high efficient pe...
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Cadmium sulphide (CdS) is a promising material to produce hydrogen because of its narrow band gap, abundance and simple preparation *** we know, element-doped CdS and special nanostructure of CdS has high efficient performance for hydrogen production, while CdS alone demonstrated extremely low photocatalytic activity for the production of hydrogen under visible light ***, much attention has been focused on CdS morphologies controlling, nanostructures doping and surface modifacation.
As a layered-structure semiconductor material with wide band gap, MoO3 has been considered to be a promising candidate for application in gas ***, gas sensor based on MoO3 have been found to have a response towards va...
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As a layered-structure semiconductor material with wide band gap, MoO3 has been considered to be a promising candidate for application in gas ***, gas sensor based on MoO3 have been found to have a response towards various gases such as H2S, NO2, NH3, trimethylamine, formaldehyde and H2 in the temperature range of 300-600 ℃.Although MoO3 films and nanorods are not sensitive to ethanol gas, it is found that the ultralong MoO3 nanobelts have a good sensitivity and selectivity to ethanol gas in our works.
Quantum dots sensitized solar cells (QDSSCs) have been attracted much attention as the next generation photovoltaic devices, due to the size-effect, high absorption coefficient and multiple excitation generation of qu...
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Quantum dots sensitized solar cells (QDSSCs) have been attracted much attention as the next generation photovoltaic devices, due to the size-effect, high absorption coefficient and multiple excitation generation of quantum dots (QDs).Recently, Mn-CdS/CdSe and CuInS2/Mn-CdS sensitized solar cells has been ***, the performance of the solar cells is still limited by the transfer barrier of the photo-induced electrons from ***, the single crystalline nanorods, nanowires and nanotubes arrays structure have been widely prepared to improve the electron *** order to effectively enhance the efficiency, the nanowire structure is expected to be employed in both photo-anodes and counter electrodes for QDSSCs fabrication.
TiO2 hollow structure materials had become one of the hot spots because of their low density, high specific surface areas, and good photocatalytic *** now, there were lots of works focused on them, such as their exten...
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TiO2 hollow structure materials had become one of the hot spots because of their low density, high specific surface areas, and good photocatalytic *** now, there were lots of works focused on them, such as their extensive application in catalysis, pharmacy, sensing device, photon transmission and the basis material of ***, the drawbacks which are out control of nanoparticles phases on the surface, raw materials wasted and visible region absorption of its structure doesn't make it get better development in the field of photocatalysis research.
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