Silicon nanostructures by metal induced growth (MIG) for solar cell emitters

C. Ji; E. A. Guliants; W. A. Anderson

Silicon nanostructures by metal induced growth (MIG) for solar cell emitters

C. Ji
, E. A. Guliants
, W. A. Anderson

Department of Electrical Engineering

University at Buffalo

Research output: Contribution to journal › Conference article › peer-review

Abstract

This recent work shows the capacity of the MIG process to grow novel Si nanostructures and wires in both vertical and lateral directions. In the standard MIG process, a nanocrystalline Si thin film with 100 nm scale continuous and columnar structures was formed. By changing the process parameters, we can produce two-dimensional arrays of single crystalline nanowires with 1 μ length on top of the Si thin film. Also, we can manipulate the lateral growth of nanocrystalline Si by varying the thickness of the Ni pre-layer. MIG-Si forms a novel device with standard MIG-Si as a thin film solar cell and the nanowires as surface textures to generate photo-current and give anti-reflection.

Original language	English
Pages (from-to)	1314-1317
Number of pages	4
Journal	Conference Record of the IEEE Photovoltaic Specialists Conference
State	Published - 2002
Event	29th IEEE Photovoltaic Specialists Conference - New Orleans, LA, United States Duration: May 19 2002 → May 24 2002

Cite this

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title = "Silicon nanostructures by metal induced growth (MIG) for solar cell emitters",

abstract = "This recent work shows the capacity of the MIG process to grow novel Si nanostructures and wires in both vertical and lateral directions. In the standard MIG process, a nanocrystalline Si thin film with 100 nm scale continuous and columnar structures was formed. By changing the process parameters, we can produce two-dimensional arrays of single crystalline nanowires with 1 μ length on top of the Si thin film. Also, we can manipulate the lateral growth of nanocrystalline Si by varying the thickness of the Ni pre-layer. MIG-Si forms a novel device with standard MIG-Si as a thin film solar cell and the nanowires as surface textures to generate photo-current and give anti-reflection.",

author = "C. Ji and Guliants, \{E. A.\} and Anderson, \{W. A.\}",

year = "2002",

language = "English",

pages = "1314--1317",

journal = "Conference Record of the IEEE Photovoltaic Specialists Conference",

issn = "0160-8371",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

note = "29th IEEE Photovoltaic Specialists Conference ; Conference date: 19-05-2002 Through 24-05-2002",

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T1 - Silicon nanostructures by metal induced growth (MIG) for solar cell emitters

AU - Ji, C.

AU - Guliants, E. A.

AU - Anderson, W. A.

PY - 2002

Y1 - 2002

N2 - This recent work shows the capacity of the MIG process to grow novel Si nanostructures and wires in both vertical and lateral directions. In the standard MIG process, a nanocrystalline Si thin film with 100 nm scale continuous and columnar structures was formed. By changing the process parameters, we can produce two-dimensional arrays of single crystalline nanowires with 1 μ length on top of the Si thin film. Also, we can manipulate the lateral growth of nanocrystalline Si by varying the thickness of the Ni pre-layer. MIG-Si forms a novel device with standard MIG-Si as a thin film solar cell and the nanowires as surface textures to generate photo-current and give anti-reflection.

AB - This recent work shows the capacity of the MIG process to grow novel Si nanostructures and wires in both vertical and lateral directions. In the standard MIG process, a nanocrystalline Si thin film with 100 nm scale continuous and columnar structures was formed. By changing the process parameters, we can produce two-dimensional arrays of single crystalline nanowires with 1 μ length on top of the Si thin film. Also, we can manipulate the lateral growth of nanocrystalline Si by varying the thickness of the Ni pre-layer. MIG-Si forms a novel device with standard MIG-Si as a thin film solar cell and the nanowires as surface textures to generate photo-current and give anti-reflection.

UR - https://www.scopus.com/pages/publications/0036948707

M3 - Conference article

SN - 0160-8371

SP - 1314

EP - 1317

JO - Conference Record of the IEEE Photovoltaic Specialists Conference

JF - Conference Record of the IEEE Photovoltaic Specialists Conference

T2 - 29th IEEE Photovoltaic Specialists Conference

Y2 - 19 May 2002 through 24 May 2002

ER -

Silicon nanostructures by metal induced growth (MIG) for solar cell emitters

Abstract

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