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.