بر اساس عنوان
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CMOS MAPS with pixel level sparsification and time stamping capabilities for applications at the ILC15
CMOS MAPS with pixel level sparsification and time stamping capabilities for applications at the ILC44
CMOS sensors in 90 nm fabricated on high resistivity wafers: Design concept and irradiation results45
CMOS sensors in 90 nm fabricated on high resistivity wafers: Design concept and irradiation results152
CMV Pneumonitis with Bilateral Pleural and Pericardial Effusion in A Child with Non Hodgkin Lymphoma166
c-MYC overexpression overrides TAK1 dependency in efficient tumorigenicity of AKT-transformed cells248
CNS vasculitis and vasculopathy: Efficacy and usefulness of diffusion-weighted echoplanar MR imaging249
CNS young investigator award lecture: Molecular analysis of the neurofibromatosis 2 tumor suppressor399
CO gas-sensing characteristics of SnO2 ceramics obtained by chemical precipitation and freeze-drying439
CO on Pt(111): binding site assignment from the interplay between measured and calculated STM images454
CO oxidation catalysts based on copper and manganese or cobalt oxides supported on MgF2 and Al2O3458
CO oxidation of Pt thin films deposited on smooth and porous Au nanorods Original Research Article476
CO oxidation on stepped Rh[n(1 1 1) × (1 1 1)] single crystal electrodes: a chronoamperometric study484
CO oxidation over CuO/Ce1−xCuxO2−δ and Ce1−xCuxO2−δ catalysts: Synergetic effects and kinetic study507
CO preferential oxidation in H2-rich stream over a CuO/CeO2 catalyst with high H2O and CO2 tolerance514
Co removal and phase transformations during high power diode laser irradiation of cemented carbide524
CO sensing characteristics of hexagonal-shaped CdO nanostructures prepared by microwave irradiation541
CO x Free Hydrogen Production by Catalytic Decomposition of Methane Over Porous Ni/Al2O3 Catalysts554
Co(II), Ni(II) and Cu(II) Mononuclear Complexes with N2O2 Ligand Derived from Ethyl 4-Aminobenzoate577
Co/Al2O3 catalysts promoted with noble metals for production of hydrogen by methane steam reforming600
Co@Ru nanoparticle with core–shell structure supported over γ-Al2O3 for Fischer–Tropsch synthesis663
CO2 and H2O effect on propane auto-ignition delay times under mild combustion operative conditions712
CO2 capture capacities of activated carbon fibre-phenolic resin composites Original Research Article735
CO2 capture with amine-loaded carbon nanotubes via a dual-column temperature/vacuum swing adsorption754
CO2 decomposition to carbon with ferrite-derived metallic phase at 300 °C Original Research Article774
CO2 emission inventories for Chinese cities in highly urbanized areas compared with European cities
778
CO2 emission reduction within Chinese iron & steel industry: practices, determinants and performance828
CO2 erosion–corrosion of pipeline steel (API X65) in oil and gas conditions—A systematic approach856
CO2 flux measurements in Russian Far East tundra using eddy covariance and closed chamber techniques884
CO2 hydrogenation on Au/TiC, Cu/TiC, and Ni/TiC catalysts: Production of CO, methanol, and methane938
CO2 methanation catalysts prepared from amorphous Ni–Zr–Sm and Ni–Zr–misch metal alloy precursors939
CO2 methanation catalysts prepared from amorphous Ni–Zr–Sm and Ni–Zr–misch metal alloy precursors940
CO2 methanation combined with NH3 decomposition by in situ H2 separation using a Pd membrane reactor960
CO2 Park