Dr HELIA HOOSHMAND's Outputs (2)

Framework for uncertainty evaluation in optical surface topography measurement using a virtual instrument (2025)
Journal Article
Hooshmand, H., Pappas, A., Isa, M., Su, R., Haitjema, H., Piano, S., & Leach, R. (2025). Framework for uncertainty evaluation in optical surface topography measurement using a virtual instrument. Measurement, 253(Part D), Article 117604. https://doi.org/10.1016/j.measurement.2025.117604

Uncertainty evaluation in the measurement of surfaces with complex topography using optical techniques remains a challenge due to the complex interaction between light and the surfaces. The ISO 25178 part 600 specification standard simplifies uncerta... Read More about Framework for uncertainty evaluation in optical surface topography measurement using a virtual instrument.

On‐Demand Sintering of Gold Nanoparticles via Controlled Removal of o‐Nitrobenzyl Thiol Ligands Under Record‐Low Power for Conductive Patterns (2025)
Journal Article
Im, J., Heaton, C., Putri, N. R. E., Liu, C., Usuba, J., Butler, K., Fay, M., Han, G. G. D., Hooshmand, H., Thompson, A., Wildman, R., Hague, R., Turyanska, L., & Tuck, C. (2025). On‐Demand Sintering of Gold Nanoparticles via Controlled Removal of o‐Nitrobenzyl Thiol Ligands Under Record‐Low Power for Conductive Patterns. Advanced Science, 12(12), Article 2415496. https://doi.org/10.1002/advs.202415496

Metal nanoparticles-based nanoinks have shown potential for fabricating metallic components essential to the realization of innovative 3D-printed electronic devices. However, fabricating metallic patterns on flexible, heat-sensitive substrates remain... Read More about On‐Demand Sintering of Gold Nanoparticles via Controlled Removal of o‐Nitrobenzyl Thiol Ligands Under Record‐Low Power for Conductive Patterns.