Maryam Bari | PINA Creation: How does the nanoparticle size distribution of Pina Creation's zinc oxide nano inks contribute to their performance in solar cells?
00:06:57 - 00:07:30
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How does the nanoparticle size distribution of Pina Creation's zinc oxide nano inks contribute to their performance in solar cells?
Maryam Bari presents technical data showcasing the characteristics of Pina Creation's nano inks. Dynamic Light Scattering (DLS) results indicate a nanoparticle size distribution below 10 nanometers for zinc oxide in an isopropyl alcohol (IPA) solvent, which is crucial for achieving uniform and efficient thin films.
Transmission Electron Microscopy (TEM) images of the thin film reveal a crystallized size of around 2 nanometers with high crystallinity. This combination of small particle size and high crystallinity contributes to the enhanced performance of the nano inks in solar cell applications.
* The nanoparticle size distribution of zinc oxide in IPA solvent.
* The crystallized size and high crystallinity of the thin film.
* The contribution of these characteristics to solar cell performance.
#ZincOxideNanoInks, #NanoparticleSizeDistribution, #HighCrystallinity, #ThinFilmFormation, #Photovoltaics, #SemiconductorMaterials
This is a highlight of the presentation:
Boosting Stability and Efficiency in Perovskite and Organic Solar Cells through Scalable Metal Oxide Nano Inks
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00:00:29 - 00:00:32
How do next-generation solar panels overcome the limitations of traditional silicon-based technology?
How do next-generation solar panels overcome the limitations of traditional silicon-based technology?
Maryam Bari highlights the promising future of next-generation solar panels, specifically perovskite, organic thin-film, and flexible solar panels. She projects a substantial market growth, estimating a value of over $40 billion within the next five to seven years.
Beyond solar applications, Bari mentions the expanding market for displays, already established but poised for further growth, potentially exceeding $200 billion. This diversification underscores the broad applicability of advanced materials in electronics.
* The projected growth of next-generation solar panels.
* The potential of the display market.
* The importance of advanced materials in electronics.
#PerovskiteSolar, #OrganicPhotovoltaics, #FlexibleSolarPanels, #EmergingPVTechnologies, #Photovoltaics, #AdvancedElectronicsMaterials
00:01:33 - 00:01:40
What are the primary limitations of existing ETL and HTL materials in perovskite solar cells?
What are the primary limitations of existing ETL and HTL materials in perovskite solar cells?
Maryam Bari discusses the challenges associated with existing materials used for Electron Transport Layers (ETL) and Hole Transport Layers (HTL) in perovskite solar cells. Traditional metal oxides, for instance, require high-temperature sintering (around 400°C) to crystallize and function effectively, which is energy-intensive and potentially incompatible with flexible substrates.
Organic semiconducting materials offer good performance but currently lack scalability and cost-effectiveness for large-scale production. Furthermore, the use of toxic solvents in some organic material processing poses environmental concerns.
* The limitations of traditional metal oxides.
* The challenges associated with organic semiconducting materials.
* The environmental concerns related to toxic solvents.
#ETLHTLMaterials, #HighTemperatureSintering, #FlexibleSubstrates, #OrganicSemiconductors, #PhotovoltaicTechnology, #AdvancedMaterials