Titanium nitride: A new Ohmic contact material for n-type CdS | Zendy

Arjen Didden | Zendy; Hemme Battjes | Zendy; R. Machunze | Zendy; B. Dam | Zendy; Roel van de Krol | Zendy

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Titanium nitride: A new Ohmic contact material for n-type CdS

Author(s) -

Arjen Didden,

Hemme Battjes,

R. Machunze,

B. Dam,

Roel van de Krol

Publication year - 2011

Publication title -

journal of applied physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.699

H-Index - 319

eISSN - 1089-7550

pISSN - 0021-8979

DOI - 10.1063/1.3615946

Subject(s) - ohmic contact , materials science , tin , optoelectronics , titanium , annealing (glass) , schottky diode , titanium nitride , crystallite , sputtering , nitride , indium , schottky barrier , metallurgy , diode , thin film , nanotechnology , layer (electronics)

In devices based on CdS, indium is often used to make Ohmic contacts. Since indium is scarce and expensive, suitable replacement materials need to be found. In this work, we show that sputtered titanium nitride forms an Ohmic contact with n-type CdS. The CdS films, deposited with chemical bath deposition, have a hexagonal crystal structure and are polycrystalline, mostly with a (002) texture. The thickness of the films is ?600 nm, and the donor density is 1.9?×?1016 cm?3. The donor density increases to 1.5?×?1017 cm?3 upon annealing. The contact resistivity of sputtered TiN on CdS is found to be 4.7?±?0.6 ? cm2. This value is sufficiently small to avoid large resistive losses in most CdS device applications. To demonstrate the use of TiN in a CdS device, a Au/CdS/TiN Schottky diode was constructed. The diode has a potential barrier of 0.69 V and an ideality factor of 2.2

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