Reply to the ‘Comment on “Ultralow magnetostrictive flexible ferromagnetic nanowires”’ by D. Faurie, N. Challab, M. Haboussi, and F. Zighem, Nanoscale, 2022, 14, DOI: 10.1039/D1NR01773J

Abstract: Bending direction independent highly resilient flexible magnetic nanowires realized with ultralow magnetostriction.

“…This result provides valuable insights into the structural characteristics of NdNbO 4 , shedding light on the dimensions of its crystalline constituents. 17…”

“…16 These existing methodologies necessitate a state-of-the-art lab environment, sophisticated instrumentation, tedious sample preparation, and a skilled operator for successful experimental execution. 16,17 These methods fall short in practical applications due to issues like non-repeatability and the inability to conduct on-site testing. Conversely, modern electrochemical sensors are designed for field deployment, addressing space and power constraints with cost-effective instrumentation.…”

Neodymium niobate nanospheres on functionalized carbon nanofibers: a nanoengineering approach for highly sensitive vanillin detection

“…This result provides valuable insights into the structural characteristics of NdNbO 4 , shedding light on the dimensions of its crystalline constituents. 17…”

“…16 These existing methodologies necessitate a state-of-the-art lab environment, sophisticated instrumentation, tedious sample preparation, and a skilled operator for successful experimental execution. 16,17 These methods fall short in practical applications due to issues like non-repeatability and the inability to conduct on-site testing. Conversely, modern electrochemical sensors are designed for field deployment, addressing space and power constraints with cost-effective instrumentation.…”

Neodymium niobate nanospheres on functionalized carbon nanofibers: a nanoengineering approach for highly sensitive vanillin detection