Add to ORKGCopper-exchanged zeolite chabazite (Cu-SSZ-13) was recently commercialized for the selective catalytic reduction of NOX with ammonia in vehicle emissions as it exhibits superior reaction performance and stability compared to all other catalysts, notably Cu-ZSM-5. Herein, the 3D distributions of Cu as well as framework elements (Al, O, Si) in both fresh and aged Cu-SSZ-13 and Cu-ZSM-5 are determined with nanometer resolution using atom probe tomography (APT), and correlated with catalytic activity and other characterizations. Both fresh catalysts contain a heterogeneous Cu distribution, which is only identified due to the single atom sensitivity of APT. After the industry standard 135,000 mile simulation, Cu-SSZ- 13 shows Cu and Al clusterin...
NH 3-Selective Catalytic Reduction (NH 3-SCR) is a widely used technology for NO x reduction in the ...
NH3-Selective Catalytic Reduction (NH3-SCR) is a widely used technology for NOx reduction in the emi...
The conversion of methanol to valuable hydrocarbon molecules is of great commercial interest, as the...
Copper-exchanged zeolite chabazite (Cu-SSZ-13) was recently commercialized for the selective catalyt...
Characterizing materials at nanoscale resolution to provide new insights into structure property per...
Characterizing materials at nanoscale resolution to provide new insights into structure property per...
To gain insight into the underlying mechanisms of catalyst durability for the selective catalytic re...
Combustion of diesel fuel in automotive engines leads to the formation of nitrogen oxides (NOx) that...
Cu-exchanged chabazite is the catalyst of choice for NOx abatement in diesel vehicles aftertreatment...
To understand the degradation mechanism of the copper-ion-exchanged SSZ-13 (Cu-SSZ-13) is of high si...
Understanding structure–composition–property relationships in zeolite‐based materials is critical to...
The methanol-to-hydrocarbons (MTH) process, commonly catalyzed by zeolites, is of great commercial i...
Selective catalytic reduction (SCR) of NOx with ammonia using metal-exchanged molecular sieves with ...
Cu-exchanged zeolites have demonstrated widespread use as catalyst materials in the abatement of NOx...
NH 3-Selective Catalytic Reduction (NH 3-SCR) is a widely used technology for NO x reduction in the ...
NH3-Selective Catalytic Reduction (NH3-SCR) is a widely used technology for NOx reduction in the emi...
The conversion of methanol to valuable hydrocarbon molecules is of great commercial interest, as the...
Copper-exchanged zeolite chabazite (Cu-SSZ-13) was recently commercialized for the selective catalyt...
Characterizing materials at nanoscale resolution to provide new insights into structure property per...
Characterizing materials at nanoscale resolution to provide new insights into structure property per...
To gain insight into the underlying mechanisms of catalyst durability for the selective catalytic re...
Combustion of diesel fuel in automotive engines leads to the formation of nitrogen oxides (NOx) that...
Cu-exchanged chabazite is the catalyst of choice for NOx abatement in diesel vehicles aftertreatment...
To understand the degradation mechanism of the copper-ion-exchanged SSZ-13 (Cu-SSZ-13) is of high si...
Understanding structure–composition–property relationships in zeolite‐based materials is critical to...
The methanol-to-hydrocarbons (MTH) process, commonly catalyzed by zeolites, is of great commercial i...
Selective catalytic reduction (SCR) of NOx with ammonia using metal-exchanged molecular sieves with ...
Cu-exchanged zeolites have demonstrated widespread use as catalyst materials in the abatement of NOx...
NH 3-Selective Catalytic Reduction (NH 3-SCR) is a widely used technology for NO x reduction in the ...
NH3-Selective Catalytic Reduction (NH3-SCR) is a widely used technology for NOx reduction in the emi...
The conversion of methanol to valuable hydrocarbon molecules is of great commercial interest, as the...