The Role of Carbon in Amorphous Silicon Nip Photodiode Sensors

R. L. Weisfield; C. C. Tsai

doi:10.1557/PROC-192-423

Abstract

We have been investigating the dark current and quantum efficiency of nip and pin photodiodes for document scanning applications. Alloying the top doped layer with carbon or making it microcrystalline was found to enhance the spectral response without causing significant deleterious effects to dark current. We also observed lower dark currents in both pin and nip(μc-Si:C:H) sensors compared to nip(a-Si:C:H) sensors, which we attribute to a more graded p-i interface in the former devices.

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The Role of Carbon in Amorphous Silicon Nip Photodiode Sensors

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

The Role of Carbon in Amorphous Silicon Nip Photodiode Sensors

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