Title :
Novel Integration of Metal–Insulator–Metal (MIM) Capacitors Comprising Perovskite-type Dielectric and Cu Bottom Electrode on Low-Temperature Packaging Substrates
Author :
Liao, E.B. ; Choong, T.H. ; Zhu, W.G. ; Teoh, K.W. ; Lim, P.C. ; Lo, G.Q. ; Kwong, D.L.
Author_Institution :
Inst. of Microelectron., Singapore
Abstract :
In this letter, a novel integration scheme, for metal-insulator-metal capacitors comprising perovskite-type dielectrics and Cu-based bottom electrodes, has been demonstrated on low-temperature FR4 packaging substrates. Cu oxidation during dielectric deposition and postannealing is completely avoided by a dielectric-first process flow with Ti as oxygen-getter. By using evaporated barium strontium titanate as capacitor dielectric, a maximum capacitance density (~1250 nF/cm2 at 100 kHz) and moderate leakage current (< 4 times 10-5 A/cm2 at 2 V) have been achieved with rapid thermal annealing at 700degC. Higher temperature leads to dielectric degradation. Combined with advanced deposition techniques, this integration scheme enables realization of high-performance embedded capacitors that can be integrated with printed circuit board technology.
Keywords :
MIM devices; annealing; barium compounds; capacitors; copper; dielectric materials; electronics packaging; leakage currents; strontium compounds; Cu; MIM capacitor; bottom electrode; frequency 100 kHz; leakage current; low-temperature FR4 packaging substrates; metal-insulator-metal capacitor; perovskite-type dielectric; temperature 700 C; thermal annealing; voltage 2 V; Barium; Capacitance; Dielectric substrates; Electrodes; MIM capacitors; Metal-insulator structures; Oxidation; Packaging; Strontium; Titanium compounds; Annealing; Cu electrode; barium strontium titanate (BST); metal–insulator–metal (MIM) capacitor; oxidation; packaging substrate;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.910778
