In the field of materials science, the development and application of perovskite materials remain a critical area due to their promising optoelectronic properties. While lead-based perovskites have shown excellent performance, they pose significant health and environmental risks, which has intensified the need for safer alternatives. Despite the potential of lead-free perovskites, their efficiency and stability are currently inferior to their lead-containing counterparts. Recent research has consequently focused on overcoming these challenges, aiming to match or even surpass the performance of lead-based perovskites.
This Research Topic aims to consolidate the latest advancements in lead-free perovskite research, with a focus on enhancing their optoelectronic performance and addressing key stability issues. It seeks to synthesize current findings and foster innovative approaches to improve the viability of these materials for practical applications. The focus is on understanding and improving the material properties of lead-free perovskites while maintaining an emphasis on reducing toxicity and enhancing environmental safety.
To achieve a comprehensive overview and foster groundbreaking research, contributors are invited to address the following themes:
- Advantages and challenges of lead-free perovskites, particularly regarding toxicity, performance, and environmental impact.
- Exploring new materials that could potentially enhance the efficiency of lead-free perovskites.
- Analysis and comparison of the efficiency, stability, and scalability of lead-free perovskites with traditional lead-based materials.
Keywords:
lead-free perovskites, Optoelectronics, lead-free perovskites characterization, lead-free perovskites synthesis
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
In the field of materials science, the development and application of perovskite materials remain a critical area due to their promising optoelectronic properties. While lead-based perovskites have shown excellent performance, they pose significant health and environmental risks, which has intensified the need for safer alternatives. Despite the potential of lead-free perovskites, their efficiency and stability are currently inferior to their lead-containing counterparts. Recent research has consequently focused on overcoming these challenges, aiming to match or even surpass the performance of lead-based perovskites.
This Research Topic aims to consolidate the latest advancements in lead-free perovskite research, with a focus on enhancing their optoelectronic performance and addressing key stability issues. It seeks to synthesize current findings and foster innovative approaches to improve the viability of these materials for practical applications. The focus is on understanding and improving the material properties of lead-free perovskites while maintaining an emphasis on reducing toxicity and enhancing environmental safety.
To achieve a comprehensive overview and foster groundbreaking research, contributors are invited to address the following themes:
- Advantages and challenges of lead-free perovskites, particularly regarding toxicity, performance, and environmental impact.
- Exploring new materials that could potentially enhance the efficiency of lead-free perovskites.
- Analysis and comparison of the efficiency, stability, and scalability of lead-free perovskites with traditional lead-based materials.
Keywords:
lead-free perovskites, Optoelectronics, lead-free perovskites characterization, lead-free perovskites synthesis
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.