Presentation is loading. Please wait.

Presentation is loading. Please wait.

Three-Dimentional (3D) Solar Cell

Published byBertrand Brunet Modified over 5 years ago

Similar presentations

Presentation on theme: "Three-Dimentional (3D) Solar Cell"— Presentation transcript:

1

2 Three-Dimentional (3D) Solar Cell
Why is CuInS2 considered a promising candidate? 1. High absorption coefficient. 2. Direct band gap of 1.55 eV, which is well matched to the solar spectrum. The advantage of using nanostructured materials is that light absorption and charge migration occur no longer in one material (usually silicon)

3 1. Glass coated with a fluor-doped SnO2 is used as substrate.
2. TiO2 is deposited on the substrate by spray deposition to prevent the contact between CuInS2 and SnO2 which leads to leakage current. 3. Next, a nanocrystalline anatase TiO2 coating is applied to form the electron-conducting matrix. 4. To complete the devices, an electrical contact is applied on top, which can be obtained by doctor blading of graphite paste. 5. A previous study has shown that the electronic contact between TiO2 and CuInS2 is improved significantly if a barrier film of Inx (OH) yS2 is deposited prior to CuInS2 deposition. The function of this barrier film is to align the valence bands and to suppress the back flow of electrons.

4 a&b : TCO layer Transparent Conducting Oxide (F:SnO2)
c: dense TiO2 d: nanocomposite TiO2/In2S3/CuInS2 e:near to the surface

5

6

Download ppt "Three-Dimentional (3D) Solar Cell"

Similar presentations

Display Systems and photosensors (Part 2)

Display Systems and photosensors (Part 2)
Nanowire dye-sensitized solar cells

Nanowire dye-sensitized solar cells
Multiple band gap devices for solar water splitting Tfy-56.5141 Special Course in Advanced Energy Technologies Priit Jaanson.

Multiple band gap devices for solar water splitting Tfy Special Course in Advanced Energy Technologies Priit Jaanson.
Juan Bisquert Nanostructured Energy Devices: Equilibrium Concepts and Kinetics CRC Press 1 1Introduction 2Electrostatic and thermodynamic potentials of.

Juan Bisquert Nanostructured Energy Devices: Equilibrium Concepts and Kinetics CRC Press 1 1Introduction 2Electrostatic and thermodynamic potentials of.
Cell and module construction. Photovoltaic effect and basic solar cell parameters To obtain a potential difference that may be used as a source of electrical.

Cell and module construction. Photovoltaic effect and basic solar cell parameters To obtain a potential difference that may be used as a source of electrical.
Cu(I) based delafossites as candidate materials for p-type transparent conducting oxides 05/28/10 Roy Rotstein.

Cu(I) based delafossites as candidate materials for p-type transparent conducting oxides 05/28/10 Roy Rotstein.
P and n type semiconductors. Semiconductors Semiconductors are also referred to as metalloids. Metalloids occur at the division between metals and non-metals.

P and n type semiconductors. Semiconductors Semiconductors are also referred to as metalloids. Metalloids occur at the division between metals and non-metals.
Chapter 8 Thin Film Solar Cells July 12, 2015.

Chapter 8 Thin Film Solar Cells July 12, 2015.
Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Cu(In,Ga)Se 2 Thin film Solar Cells July 15, 2015July 15, 2015July 15,

Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Cu(In,Ga)Se 2 Thin film Solar Cells July 15, 2015July 15, 2015July 15,
Copyright © Houghton Mifflin Company. All rights reserved. 16a–1 Figure 16.31: Two-dimensional representations of (a) a quartz crystal and (b) a quartz.

Copyright © Houghton Mifflin Company. All rights reserved. 16a–1 Figure 16.31: Two-dimensional representations of (a) a quartz crystal and (b) a quartz.
Lesson 23: Introduction to Solar Energy and Photo Cells ET 332a Dc Motors, Generators and Energy Conversion Devices 1Lesson 23 332a.pptx.

Lesson 23: Introduction to Solar Energy and Photo Cells ET 332a Dc Motors, Generators and Energy Conversion Devices 1Lesson a.pptx.
Anti-reflection optical coatings Anti-reflection coatings are frequently used to reduce the Fresnel reflection. For normal incidence, the intensity reflection.

Anti-reflection optical coatings Anti-reflection coatings are frequently used to reduce the Fresnel reflection. For normal incidence, the intensity reflection.
Solar Cells 3 generations of solar cells:

Solar Cells 3 generations of solar cells:
Principle of Photovoltaic Energy city – Sehir University, Istanbul – September 2013 Dr Mohamed Zayed.

Principle of Photovoltaic Energy city – Sehir University, Istanbul – September 2013 Dr Mohamed Zayed.
1 Response Sheet Questions  Why do we need to know the shapes of big molecules? What exactly would it tell you? How is this related to the side effects.

1 Response Sheet Questions  Why do we need to know the shapes of big molecules? What exactly would it tell you? How is this related to the side effects.
Solar Cells Rawa’a Fatayer.

Solar Cells Rawa’a Fatayer.
PREPARATION OF ZnO NANOWIRES BY ELECTROCHEMICAL DEPOSITION

PREPARATION OF ZnO NANOWIRES BY ELECTROCHEMICAL DEPOSITION
Copyright © Houghton Mifflin Company. All rights reserved. 16a–1 Figure 16.31: Two-dimensional representations of (a) a quartz crystal and (b) a quartz.

Copyright © Houghton Mifflin Company. All rights reserved. 16a–1 Figure 16.31: Two-dimensional representations of (a) a quartz crystal and (b) a quartz.
Presented to: Presented by:

Presented to: Presented by:
Dye Sensitised Solar Cells

Dye Sensitised Solar Cells

Similar presentations

Ads by Google