Quantum Nanostructures and
Nanofabrication Group

Prof. Karl K. Berggren

New Paper: “Dimensional Tailoring of Hydrothermally Grown Zinc Oxide Nanowire Arrays”

Hydrothermally synthesized ZnO nanowire arrays are critical components in a range of nanostructured semiconductor devices. The device performance is governed by relevant nanowire morphological parameters that cannot be fully controlled during bulk hydrothermal synthesis due to its transient nature. Here, we maintain homeostatic zinc concentration, pH, and temperature by employing continuous flow synthesis and demonstrate independent tailoring of nanowire array dimensions including areal density, length, and diameter on device-relevant length scales. By applying diffusion/reaction-limited analysis, we separate the effect of local diffusive transport from the c-plane surface reaction rate and identify direct incorporation as the c-plane growth mechanism. Our analysis defines guidelines for precise and independent control of the nanowire length and diameter by operating in rate-limiting regimes. We validate its utility by using surface adsorbents that limit reaction rate to obtain spatially uniform vertical growth rates across a patterned substrate.

Dimensional Tailoring of Hydrothermally Grown Zinc Oxide Nanowire Arrays“, Jayce J. Cheng, Samuel M. Nicaise, Karl K. Berggren, and Silvija Gradečak Nano Lett., (2015)
DOI: 10.1021/acs.nanolett.5b04625