Methods of forming integrated circuit capacitors having improved electrode and dielectric layer characteristics and capacitors formed thereby

Assignee

• SAMSUNG ELECTRONICS CO., LTD. · KR

Inventors

• Seung Hwan Lee · Seojong-myeon, KR
• Sang-Hyeop Lee · Seoul, KR
• Young Sun Kim · Canton, US
• Se-Jin Shim · Seoul, KR
• You-Chan Jin · Seojong-myeon, KR
• Ju-Tae Moon · Seojong-myeon, KR
• Jin-Seok Choi · Suwon-si, KR
• Young Min Kim · Suwon-si, KR
• Kyung-Hoon Kim · Yongsan-gu, KR
• Kab-jin Nam · Seojong-myeon, KR
• Young-Wook Park · Seojong-myeon, KR
• Seok-Jun Won · Seoul, KR
• Young-Dae Kim · Seojong-myeon, KR

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY10S438/964

Abstract

Methods of forming integrated circuit capacitors include the steps of forming a lower electrode of a capacitor by forming a conductive layer pattern (e.g., silicon layer) on a semiconductor substrate and then forming a hemispherical grain (HSG) silicon surface layer of first conductivity type on the conductive layer pattern. The inclusion of a HSG silicon surface layer on an outer surface of the conductive layer pattern increases the effective surface area of the lower electrode for a given lateral dimension. The HSG silicon surface layer is also preferably sufficiently doped with first conductivity type dopants (e.g., N-type) to minimize the size of any depletion layer which may be formed in the lower electrode when the capacitor is reverse biased and thereby improve the capacitor's characteristic Cmin/Cmax ratio. A diffusion barrier layer (e.g., silicon nitride) is also formed on the lower electrode and then a dielectric layer is formed on the diffusion barrier layer. The diffusion barrier layer is preferably made of a material of sufficient thickness to prevent reaction between the dielectric layer and the lower electrode and also prevent out-diffusion of dopants from the HSG si…