Combinatorial Analysis Methodologies for Accelerated Research: The Case of Chalcogenide Thin‐Film Photovoltaic Technologies

Fonoll‐Rubio, Robert; Becerril‐Romero, Ignacio; Vidal-Fuentes, Pedro; Grau-Luque, Enric; Atlan, Fabien; Pérez-Rodrı́guez, A.; Izquierdo‐Roca, Víctor; Guc, Maxim

doi:10.1002/solr.202200235

Solar RRL

2022

DOI: 10.1002/solr.202200235

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Combinatorial Analysis Methodologies for Accelerated Research: The Case of Chalcogenide Thin‐Film Photovoltaic Technologies

Robert Fonoll‐Rubio

Ignacio Becerril‐Romero

Pedro Vidal-Fuentes

et al.

Abstract: One of the fastest ways for the discovery, understanding, development, and further optimization of new complex materials is the application of combinatorial analysis methodologies, which have already shown impressive results for different organic and inorganic materials, leading to the fast development of different scientific fields and industrial applications. However, in the case of thinfilm materials for optoelectronic devices and, in particular, for second-generation photovoltaic (PV) devices, the applicat… Show more

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2024

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Cited by 2 publications

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Accelerating the Development of Thin Film Photovoltaic Technologies: An Artificial Intelligence Assisted Methodology Using Spectroscopic and Optoelectronic Techniques

Grau‐Luque,

Becerril‐Romero,

Atlan

et al. 2024

Small Methods

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Thin film photovoltaic (TFPV) materials and devices present a high complexity with multiscale, multilayer, and multielement structures and with complex fabrication procedures. To deal with this complexity, the evaluation of their physicochemical properties is critical for generating a model that proposes strategies for their development and optimization. However, this process is time‐consuming and requires high expertise. In this context, the adoption of combinatorial analysis (CA) and artificial intelligence (AI) strategies represents a powerful asset for accelerating the development of these complex materials and devices. This work introduces a methodology to facilitate the adoption of AI and CA for the development of TFPV technologies. The methodology covers all the necessary steps from the synthesis of samples for CA to data acquisition, AI‐assisted data analysis, and the extraction of relevant information for research acceleration. Each step provides details on the necessary concepts, requirements, and procedures and are illustrated with examples from the literature. Then, the application of the methodology to a complex set of samples from a TFPV production line highlights its ability to rapidly glean significant insights even in intricate scenarios. The proposed methodology can be applied to other types of materials and devices beyond PV and using different characterization techniques.

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Accelerating the Development of Thin Film Photovoltaic Technologies: An Artificial Intelligence Assisted Methodology Using Spectroscopic and Optoelectronic Techniques

Grau‐Luque,

Becerril‐Romero,

Atlan

et al. 2024

Small Methods

View full text Add to dashboard Cite

show abstract

Physicochemical, optical, and dielectric studies of physically vapor deposited amorphous thin Cu25-x (ZnGe)25-x Se50+2x films

Hassanien,

Sharma

2024

Journal of Non-Crystalline Solids

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Combinatorial Analysis Methodologies for Accelerated Research: The Case of Chalcogenide Thin‐Film Photovoltaic Technologies

Cited by 2 publications

References 138 publications

Accelerating the Development of Thin Film Photovoltaic Technologies: An Artificial Intelligence Assisted Methodology Using Spectroscopic and Optoelectronic Techniques

Accelerating the Development of Thin Film Photovoltaic Technologies: An Artificial Intelligence Assisted Methodology Using Spectroscopic and Optoelectronic Techniques

Physicochemical, optical, and dielectric studies of physically vapor deposited amorphous thin Cu25-x (ZnGe)25-x Se50+2x films

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