Deluca, M., Gopinath, A., & Arva, G. (2020). A Computationally Derived Technique for the Precision Placement of Heterogeneous Nanoscale Species on a Single Substrate. In 17th Annual Conference on Foundations of Nanoscience, FNANO 2020: Self-Assembled Architectures and Devices (pp. 145–146).

Deluca, M., A. Gopinath, and G. Arva. “A Computationally Derived Technique for the Precision Placement of Heterogeneous Nanoscale Species on a Single Substrate.” In 17th Annual Conference on Foundations of Nanoscience, FNANO 2020: Self-Assembled Architectures and Devices, 145–46, 2020.

Deluca M, Gopinath A, Arva G. A Computationally Derived Technique for the Precision Placement of Heterogeneous Nanoscale Species on a Single Substrate. In: 17th Annual Conference on Foundations of Nanoscience, FNANO 2020: Self-Assembled Architectures and Devices. 2020. p. 145–6.

Deluca, M., et al. “A Computationally Derived Technique for the Precision Placement of Heterogeneous Nanoscale Species on a Single Substrate.” 17th Annual Conference on Foundations of Nanoscience, FNANO 2020: Self-Assembled Architectures and Devices, 2020, pp. 145–46.

Deluca M, Gopinath A, Arva G. A Computationally Derived Technique for the Precision Placement of Heterogeneous Nanoscale Species on a Single Substrate. 17th Annual Conference on Foundations of Nanoscience, FNANO 2020: Self-Assembled Architectures and Devices. 2020. p. 145–146.