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ALD for 3D Nanofabrication

ALD for 3D Nanofabrication

Due to the self-limited nature of ALD chemical reactions, unprecedented thickness conformallity can be achieved over the most challenging 3D nanostructures. As a result, ALD has become the technique of choice to deposit a wide array of thin films to fill cavities and trenches, obtain nanowires and nanotubes, conformally coat high aspect ratio nanotemplates and high surface area nanoparticles. Today ALD is used in state-of-the-art applications ranging for all solid-state lithium ion batteries (LIB) to high surface area frameworks for water splitting. Below is a short selection of the many published examples of high quality nanostructures synthesized using ALD in Cambridge Nanotech ALD tools.


SEM cross-section of 3D cavity coated with conformal Al2O3 / TiO2 (ATO) nano-laminate ALD film. Courtesy of O. Poncelet, L. Francis, Univ. de Louvain 鈥 Deposited in Fiji庐 system.

Magnetic iron nanotube with SiO2 / Fe3O4 / SiO2 deposited in 10-30碌m deep AAO nanotemplate. Aspect ratio 150 to 590 deposited in Savannah庐 with Expo mode using 3DMASi, FeCp2, ozone.Pitzschel, K. et al. ACS Nano 3, 3463鈥3468 (2009).

Fabrication of high surface area conducting and transparent frameworks for photo-oxidation of water with Fe2O3 / ITO / SiO2 ALD films deposited on inverse opal scaffoldRiha, S. C.. Acs Appl Mater Inter 5, 360鈥367 (2013).

Solid electrolyte Li5.1TaOz deposited by ALD in AAO structure. Deposited in Savannah庐 under expo mode with up to 470:1 aspect ratio.
Liu, J. et al., J. Phys. Chem. C 117, 20260鈥20267 (2013)

Electrochemically active LiFePO4 ALD film deposited on carbon nanotubes for lithium-ion battery cathode. Deposited in Savannah庐 system under expo mode at 300藲C.
Liu, J. et al. Adv. Mat. (2014).
doi:10.1002/adma.201401805

Quaternary Cu2ZnSnS4 deposited by ALD in silicon trench. CZST is a potential low cost semiconductor for photovoltaic application. Deposited in Savannah庐 under expo mode with H2S kit.
Thimsen, E. et al. Chem Mater 24, 3188鈥3196 (2012).

Ultrathin FePO4 as an electrochemically active barrier on LMNO particles to prevent electrolyte oxidation. Deposited in Savannah庐 under expo mode.
Xiao, B. et al. Adv. Sci. (2015).
doi:10.1002/advs.201500022

TiO2 in AAO templates and TiO2 nanotubes for Dye Sensitized Solar Cell (DSSC)
Gao, X. J Power Sources (2013).
doi:10.1016/j.jpowsour.2013.04.037

TiO2-ZnO coresheath composite structure for enhanced DSSC. The 1.3nm thick ZnO layer is deposited by ALD in a Fiji庐 F200 system.
Ulusoy, T. G., J. Mater. Chem. A2, 16867鈥16876 (2014).

Sequential Infiltration Synthesis (SIS) for nanopatterning high aspect ratio metal oxide structures. AlOx infiltration done SU8 in Savannah庐 at 95藲C.
Nam, C.-Y. J Vac Sci Technol B 33, 06F201鈥8 (2015).

AlN on nylon 6,6 nanofibres deposited in Fiji庐 ALD system.
Haider, A. et al. APL Mater. 2, 096109鈥9 (2014).

Platinum nanotube array electrode after removal of AAO template. Pt deposited by ALD in Fiji庐 F200.
Galbiati, S. Electrochimica Acta 125, 107鈥116 (2014).

Monocrystalline ZnAl2O4 spinel nanotubes deposited in Savannah庐 under expo mode.
Jin fan, Nature Materials 5, 627鈥631 (2006).

ZnO-Al2O3 coreshell nanowires synthesized in Fiji庐 ALD system.
Thomas, J Vac Sci Technol A 30, (2012).

Single cell Photonic nanocavity probe with Al2O3/ZrO2 nanolaminate to prevent oxidation
Shambat, G. et al. Single-cell Photonic Nanocavity Probes. Nano Lett 130206113907001 (2013).
doi:10.1021/nl304602d