Key Laboratory of Material Modification by Laser, Ion and Electron Beams (Dalian University of Technology), Ministry of Education, Dalian 116024, China Department of Applied Physics, Xi’an University ...

confirming that the resulting alloy had the same crystal structure as tetragonal transition-metal zirconides, a family of promising superconducting materials. The lattice constants, or the lengths ...

confirming that the alloy’s crystal structure matches that of tetragonal transition-metal zirconides, a family of promising superconducting materials. They observed that the lattice constants varied ...

confirming that the resulting alloy had the same crystal structure as tetragonal transition-metal zirconides, a family of promising superconducting materials. The lattice constants, or the lengths ...

confirming that the alloy’s crystal structure matches that of tetragonal transition-metal zirconides, a family of promising superconducting materials. They observed that the lattice constants ...

confirming that the resulting alloy had the same crystal structure as tetragonal transition-metal zirconides, a family of promising superconducting materials. The lattice constants, or the lengths ...

confirming that the resulting alloy had the same crystal structure as tetragonal transition-metal zirconides, a family of promising superconducting materials. The lattice constants, or the lengths of ...

This chapter focuses on tetragonal rutile tin oxide ( SnO 2 ) by studying its chemical and physical features for gas‐sensing applications. By using XRD, we were able to characterize its rutile ...