PEROVSKITE BETAVOLTAIC-PHOTOVOLTAIC BATTERY

Organization Name

CONTEMPORARY AMPEREX TECHNOLOGY CO., LIMITED

Inventor(s)

Changsong Chen of Ningde City (CN)

Weifeng Liang of Ningde City (CN)

Ling Xiang of Ningde City (CN)

Bao Tu of Ningde City (CN)

Yongsheng Guo of Ningde City (CN)

Guodong Chen of Ningde City (CN)

Chuying Ouyang of Ningde City (CN)

PEROVSKITE BETAVOLTAIC-PHOTOVOLTAIC BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18447310 titled 'PEROVSKITE BETAVOLTAIC-PHOTOVOLTAIC BATTERY

Simplified Explanation

The patent application describes a perovskite betavoltaic-photovoltaic battery, which includes various layers and electrodes. The first electrode is transparent, and there are charge transport layers and a perovskite layer in between the electrodes. The perovskite layer is doped with a fluorescent substance. At least one of the electrodes or charge transport layers is radioactive, created by combining a radioactive source with a conductor material.

• The battery consists of a sequence of layers: first electrode, first charge transport layer, perovskite layer, second charge transport layer, and second electrode.
• The first electrode is transparent, allowing light to pass through.
• The charge transport layers are responsible for transporting electrons or holes within the battery.
• The perovskite layer is doped with a fluorescent substance, enhancing its performance.
• One or more of the layers or electrodes are radioactive, achieved by combining a radioactive source with a conductor material.
• The radioactive electrodes are referred to as irradiated electrodes.

Potential Applications

• Energy harvesting in low-light environments.
• Powering small electronic devices or sensors in remote locations.
• Integration into wearable devices or IoT devices for self-sustaining power.

Problems Solved

• Overcoming limitations of traditional batteries in low-light conditions.
• Providing a compact and efficient power source for remote or hard-to-access areas.
• Enabling self-powered devices without the need for frequent battery replacements.

Benefits

• Enhanced energy harvesting capabilities through the use of perovskite and fluorescent doping.
• Radioactive electrodes provide a continuous source of power without the need for external charging.
• Transparent electrode allows for potential integration into various applications without obstructing light.

Original Abstract Submitted

Provided are a perovskite betavoltaic-photovoltaic battery. The battery includes a first electrode, a first charge transport layer, a perovskite layer, a second charge transport layer, and a second electrode in sequence. The first electrode is a transparent electrode. The first charge transport layer is an electron transport layer and the second charge transport layer is a hole transport layer, or, the first charge transport layer is a hole transport layer and the second charge transport layer is an electron transport layer. The perovskite layer is doped with a fluorescent substance. At least one of the first electrode, the first charge transport layer, the second charge transport layer, or the second electrode is radioactive. When the first electrode and/or the second electrode is radioactive, the first electrode and/or the second electrode is an irradiated electrode formed by compounding a radioactive source and a conductor material.