PiezoMEMS Fabrication on Flexible Stainless-Steel Substrates

Kae Nakamura; Chi Luen Huang; Ali Habib Akhyari; Andrea P. Argüelles; Thomas N. Jackson; Susan Trolier-McKinstry

doi:10.3390/s26072246

PiezoMEMS Fabrication on Flexible Stainless-Steel Substrates

Kae Nakamura
, Chi Luen Huang
, Ali Habib Akhyari
, Andrea P. Argüelles
, Thomas N. Jackson
, Susan Trolier-McKinstry

Research output: Contribution to journal › Article › peer-review

Abstract

A bottom-up fabrication approach for flexible piezoelectric micromachined ultrasound transducer (PMUT) arrays on stainless-steel substrates was developed. Devices were fabricated using chemical solution deposition of a 700 nm-thick layer of Pb_0.99□_0.01(Zr_0.52Ti_0.48)Nb_0.02O₃, where □ denotes a vacancy on the Pb site, on 50 μm-thick LaNiO₃/HfO₂/stainless-steel foils. Lithography for definition of the electrode and piezoelectric layers was completed on the front of the wafer. Ni electroplating on the back side of the foil was used to create locally stiff areas to define the deflection area. PMUT devices were successfully fabricated using this method. The permittivity and loss tangent of the fabricated device at 1 kHz were 283 ± 9 and <1.5%, respectively. The remanent polarization was measured to be 38 ± 0.3 μC/cm².

Original language	English (US)
Article number	2246
Journal	Sensors
Volume	26
Issue number	7
DOIs	https://doi.org/10.3390/s26072246
State	Published - Apr 2026

All Science Journal Classification (ASJC) codes

Analytical Chemistry
Information Systems
Atomic and Molecular Physics, and Optics
Biochemistry
Instrumentation
Electrical and Electronic Engineering

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10.3390/s26072246

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@article{3dfb7fc7531843bcb66d21c127523816,

title = "PiezoMEMS Fabrication on Flexible Stainless-Steel Substrates",

abstract = "A bottom-up fabrication approach for flexible piezoelectric micromachined ultrasound transducer (PMUT) arrays on stainless-steel substrates was developed. Devices were fabricated using chemical solution deposition of a 700 nm-thick layer of Pb0.99□0.01(Zr0.52Ti0.48)Nb0.02O3, where □ denotes a vacancy on the Pb site, on 50 μm-thick LaNiO3/HfO2/stainless-steel foils. Lithography for definition of the electrode and piezoelectric layers was completed on the front of the wafer. Ni electroplating on the back side of the foil was used to create locally stiff areas to define the deflection area. PMUT devices were successfully fabricated using this method. The permittivity and loss tangent of the fabricated device at 1 kHz were 283 ± 9 and <1.5\%, respectively. The remanent polarization was measured to be 38 ± 0.3 μC/cm2.",

author = "Kae Nakamura and Huang, \{Chi Luen\} and \{Habib Akhyari\}, Ali and Arg{\"u}elles, \{Andrea P.\} and Jackson, \{Thomas N.\} and Susan Trolier-McKinstry",

note = "Publisher Copyright: {\textcopyright} 2026 by the authors.",

year = "2026",

month = apr,

doi = "10.3390/s26072246",

language = "English (US)",

volume = "26",

journal = "Sensors",

issn = "1424-3210",

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AU - Nakamura, Kae

AU - Huang, Chi Luen

AU - Habib Akhyari, Ali

AU - Argüelles, Andrea P.

AU - Jackson, Thomas N.

AU - Trolier-McKinstry, Susan

PY - 2026/4

Y1 - 2026/4

N2 - A bottom-up fabrication approach for flexible piezoelectric micromachined ultrasound transducer (PMUT) arrays on stainless-steel substrates was developed. Devices were fabricated using chemical solution deposition of a 700 nm-thick layer of Pb0.99□0.01(Zr0.52Ti0.48)Nb0.02O3, where □ denotes a vacancy on the Pb site, on 50 μm-thick LaNiO3/HfO2/stainless-steel foils. Lithography for definition of the electrode and piezoelectric layers was completed on the front of the wafer. Ni electroplating on the back side of the foil was used to create locally stiff areas to define the deflection area. PMUT devices were successfully fabricated using this method. The permittivity and loss tangent of the fabricated device at 1 kHz were 283 ± 9 and <1.5%, respectively. The remanent polarization was measured to be 38 ± 0.3 μC/cm2.

AB - A bottom-up fabrication approach for flexible piezoelectric micromachined ultrasound transducer (PMUT) arrays on stainless-steel substrates was developed. Devices were fabricated using chemical solution deposition of a 700 nm-thick layer of Pb0.99□0.01(Zr0.52Ti0.48)Nb0.02O3, where □ denotes a vacancy on the Pb site, on 50 μm-thick LaNiO3/HfO2/stainless-steel foils. Lithography for definition of the electrode and piezoelectric layers was completed on the front of the wafer. Ni electroplating on the back side of the foil was used to create locally stiff areas to define the deflection area. PMUT devices were successfully fabricated using this method. The permittivity and loss tangent of the fabricated device at 1 kHz were 283 ± 9 and <1.5%, respectively. The remanent polarization was measured to be 38 ± 0.3 μC/cm2.

UR - https://www.scopus.com/pages/publications/105035609168

UR - https://www.scopus.com/pages/publications/105035609168#tab=citedBy

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ER -

PiezoMEMS Fabrication on Flexible Stainless-Steel Substrates

Abstract

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