Gopal Datt

Extreme Current Density and Breakdown Mechanism in Graphene on Diamond Substrate

Belotcerkovtceva, Daria; Datt, Gopal; Nameirakpam, Henry; Aitkulova, Aisuluu et al.

Part of Carbon, 2025

• DOI for Extreme Current Density and Breakdown Mechanism in Graphene on Diamond Substrate

High current treated-passivated graphene (CTPG) towards stable nanoelectronic and spintronic circuits

Belotcerkovtceva, Daria; Nameirakpam, Henry; Datt, Gopal; Noumbe, Ulrich et al.

Part of Nanoscale Horizons, p. 456-464, 2024

• DOI for High current treated-passivated graphene (CTPG) towards stable nanoelectronic and spintronic circuits

Additive interfacial Dzyaloshinskii-Moriya interaction in the monolayer-MoS2/Co/Pt asymmetric trilayer system

Kumar, Chandan; Sharma, Rahul; Pal, Sreya; Datt, Gopal et al.

Part of Physical Review Applied, 2024

• DOI for Additive interfacial Dzyaloshinskii-Moriya interaction in the monolayer-MoS2/Co/Pt asymmetric trilayer system

Surface Termination-Enhanced Magnetism at Nickel Ferrite/2D Nanomaterial Interfaces: Implications for Spintronics

Schulz, Noah; Chanda, Amit; Datt, Gopal; Ong, Chin Shen et al.

Part of ACS Applied Nano Materials, p. 10402-10412, 2023

• DOI for Surface Termination-Enhanced Magnetism at Nickel Ferrite/2D Nanomaterial Interfaces: Implications for Spintronics

Proximity enhanced magnetism at NiFe2O4/Graphene interface

Schulz, N.; Chanda, A.; Datt, Gopal; Kamalakar, M. Venkata et al.

Part of AIP Advances, 2022

• DOI for Proximity enhanced magnetism at NiFe2O4/Graphene interface
• Download full text (pdf) of Proximity enhanced magnetism at NiFe2O4/Graphene interface

Extreme Current Density and Breakdown Mechanism in Graphene on Diamond Substrate

Belotcerkovtceva, Daria; Datt, Gopal; Nameirakpam, Henry; Aitkulova, Aisuluu et al.

Part of Carbon, 2025

• DOI for Extreme Current Density and Breakdown Mechanism in Graphene on Diamond Substrate

High current treated-passivated graphene (CTPG) towards stable nanoelectronic and spintronic circuits

Belotcerkovtceva, Daria; Nameirakpam, Henry; Datt, Gopal; Noumbe, Ulrich et al.

Part of Nanoscale Horizons, p. 456-464, 2024

• DOI for High current treated-passivated graphene (CTPG) towards stable nanoelectronic and spintronic circuits

Additive interfacial Dzyaloshinskii-Moriya interaction in the monolayer-MoS2/Co/Pt asymmetric trilayer system

Kumar, Chandan; Sharma, Rahul; Pal, Sreya; Datt, Gopal et al.

Part of Physical Review Applied, 2024

• DOI for Additive interfacial Dzyaloshinskii-Moriya interaction in the monolayer-MoS2/Co/Pt asymmetric trilayer system

Surface Termination-Enhanced Magnetism at Nickel Ferrite/2D Nanomaterial Interfaces: Implications for Spintronics

Schulz, Noah; Chanda, Amit; Datt, Gopal; Ong, Chin Shen et al.

Part of ACS Applied Nano Materials, p. 10402-10412, 2023

• DOI for Surface Termination-Enhanced Magnetism at Nickel Ferrite/2D Nanomaterial Interfaces: Implications for Spintronics

Proximity enhanced magnetism at NiFe2O4/Graphene interface

Schulz, N.; Chanda, A.; Datt, Gopal; Kamalakar, M. Venkata et al.

Part of AIP Advances, 2022

• DOI for Proximity enhanced magnetism at NiFe2O4/Graphene interface
• Download full text (pdf) of Proximity enhanced magnetism at NiFe2O4/Graphene interface

Nanostructure-driven complex magnetic behavior of Sm2CoMnO6 double perovskite

Muscas, Giuseppe; Prabahar, K.; Congiu, Francesco; Datt, Gopal et al.

Part of Journal of Alloys and Compounds, 2022

• DOI for Nanostructure-driven complex magnetic behavior of Sm2CoMnO6 double perovskite
• Download full text (pdf) of Nanostructure-driven complex magnetic behavior of Sm2CoMnO6 double perovskite

Combined Bottom-Up and Top-Down Approach for Highly Ordered One-Dimensional Composite Nanostructures for Spin Insulatronics

Datt, Gopal; Kotnana, Ganesh; Maddu, Ramu; Vallin, Örjan et al.

Part of ACS Applied Materials and Interfaces, p. 37490-37499, 2021

• DOI for Combined Bottom-Up and Top-Down Approach for Highly Ordered One-Dimensional Composite Nanostructures for Spin Insulatronics
• Download full text (pdf) of Combined Bottom-Up and Top-Down Approach for Highly Ordered One-Dimensional Composite Nanostructures for Spin Insulatronics