Characterization of Flux-Grown Hexagonal Boron Nitride for Encapsulated 2D Material Devices

Michael Mastalish; Santosh Karki Chhetri; Ashby Philip John; Tallisen Scott; Elena Lotti; Evans Addo-Mensah; Casper McPherson; Nathan T Sawyers; Shiva Davari Dolatabadi; Md Rafique Un Nabi; Janet Obaemo; Mohammad Hafijur Rahaman; Alton Holscher; Kenji Watanabe; Takashi Taniguchi; Jin Hu; Hugh O. H. Churchill

Characterization of Flux-Grown Hexagonal Boron Nitride for Encapsulated 2D Material Devices

ORAL

Abstract

For many nanoscale device architectures, van der Waals materials serve as building blocks for device fabrication. One such material, Hexagonal Boron Nitride (hBN), is commonly used in 2D materials research as a transparent gate dielectric and encapsulating layer. We present a growth method for hBN synthesized at the MonArk NSF Quantum Foundry facilities at the University of Arkansas. This talk highlights our characterization of the resulting crystals and their use in encapsulated graphene devices.

Bulk crystals are grown with a Fe-Ni flux at atmospheric pressure. We report Raman spectra matching those shown in the literature for other hBN growth methods. We fabricate parallel-plate capacitor devices using exfoliated thin flakes, obtaining the dielectric constant and breakdown voltage for a range of thicknesses. For comparison, similar devices were fabricated using hBN synthesized by the Taniguchi and Watanabe group at the National Institute for Materials Science of Japan. These results demonstrate that MonArk NSF Quantum Foundry facilities are capable of growing high quality crystals with comparable properties to other commonly used growth methods. We then demonstrate the utility of this hBN crystal growth method by fabricating encapsulated graphene devices and measuring the electronic transport characteristics for each device.

March 19, 2025, 7:00 PM – March 19, 2025, 7:12 PM

Presenters

Michael Mastalish

University of Arkansas

Authors

Michael Mastalish

University of Arkansas
Santosh Karki Chhetri

University of Arkansas, university of arkansas
Ashby Philip John

University of Arkansas
Tallisen Scott

Oberlin College
Elena Lotti

University of Massachusetts Dartmouth
Evans Addo-Mensah

University of Arkansas
Casper McPherson

University of Arkansas
Nathan T Sawyers

University of Arkansas
Shiva Davari Dolatabadi

University of Arkansas
Md Rafique Un Nabi

University of Arkansas
Janet Obaemo

University of Arkansas
Mohammad Hafijur Rahaman

University of Arkansas
Alton Holscher

University of Arkansas
Kenji Watanabe

National Institute for Materials Science, NIMS, Research Center for Functional Materials, National Institute for Materials Science, Research Center for Electronic and Optical Materials, National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan, Research Center for Functional Materials, National Institute of Material Science, Tsukuba, Japan, National Institute of Materials Science, Advanced Materials Laboratory, National Institute for Materials Science
Takashi Taniguchi

National Institute for Materials Science, International Center for Materials Nanoarchitectonics, National Institute for Materials Science, Research Center for Materials Nanoarchitectonics, National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan, International Center for Materials Nanoarchitectonics, National Institute of Material Science, Tsukuba, Japan, Advanced Materials Laboratory, National Institute for Materials Science
Jin Hu

University of Arkansas
Hugh O. H. Churchill

University of Arkansas