Menelaos Tsigkourakos scite author profile

The growth of polycrystalline diamond by chemical vapor deposition requires a substrate pre‐treatment in order to achieve thin, high‐quality, and pore‐free diamond layers. Seeding the substrate by immersing it into a nanodiamond (ND) dispersion is most commonly used today, since it yields a high‐density seed layer (>1011 cm−2) and leads to a thin closed polycrystalline diamond film. Nevertheless, in a nanoelectronics fabrication facility it would be advantageous to use spinning for seeding the substrate as it is already well established for resist coating and spray etching. Additionally, each wafer would use a fresh and limited amount of seeding dispersion which will not be contaminated due to a certain number of immersion‐seeding runs. Therefore, we carried out a detailed study of the spin‐seeding technique in terms of seed density and its impact on diamond layer quality. Our work shows that by the spin‐seeding approach, homogeneous seed layers with a seeding density up to 5 × 1010 cm−2 can be obtained on both 100 and 200 mm silicon wafers using 5 and 20 mL of a colloidal dispersion, respectively. ND dispersed in water +10% (v/v) ethanol gave the best results in terms of seeding density and wetting of the substrate surface.

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Low-Power Forming Free TiO_{2–<italic>x</italic>}/HfO_{2–<italic>y</italic>}/TiO_{2–<italic>x</italic>}-Trilayer RRAM Devices Exhibiting Synaptic Property Characteristics

Bousoulas

Michelakaki

Skotadis

et al. 2017

IEEE Trans. Electron Devices

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