4.6 Article

Machine learning of atomic force microscopy images of organic solar cells

RSC ADVANCES (2023)

Related references

Note: Only part of the references are listed.
Review Chemistry, Physical

Recent progress in flexible electrodes and textile shaped devices for organic solar cells

Wei Heng et al.

Summary: Organic solar cells (OSCs) are promising wearable optoelectronic devices due to their eco-friendliness, light weight, and flexibility. This review analyzes the properties of flexible transparent and opaque electrodes used in OSCs, including conducting oxides, conducting polymers, carbon nanomaterials, and metal nanostructures. Improvement strategies and device performance are summarized. The developments of fiber and fabric-shaped OSCs for wearable devices are outlined, and the challenges and prospects for wearing OSCs in the future are discussed.

JOURNAL OF MATERIALS CHEMISTRY A (2023)

Add to Collection
Article Chemistry, Physical

Linker Engineering of Dimerized Small Molecule Acceptors for Highly Efficient and Stable Organic Solar Cells

Jin-Woo Lee et al.

Summary: In this study, efficient and stable organic solar cells (OSCs) were achieved by developing a series of dimerized small-molecule acceptors (DSMAs). Three different DSMAs (DYT, DYV, and DYTVT) were prepared using different linkers (thiophene, vinylene, and thiophene-vinylene-thiophene) to connect their two Y-based building blocks. The highest power conversion efficiency (PCE) of 18.60% was achieved by a DYV-based OSC, which exhibited appropriate backbone rigidity, optimal blend morphology, and high electron mobility. Additionally, the DYV-based OSC demonstrated excellent operational stability with a lifetime of 4005 h under 1-sun illumination.

ACS ENERGY LETTERS (2023)

Add to Collection
Article Chemistry, Multidisciplinary

Polymer Solar Cells with Active Layer Thickness Compatible with Scalable Fabrication Processes: A Meta-Analysis

Nadia Camaioni et al.

Summary: Organic photovoltaics (OPV) has long been regarded as a promising emerging solar technology, but currently it has very little market share. This article presents a detailed meta-analysis of the literature published until mid-2021, focusing on the remaining issue of active layer thickness in order to translate the recent progress in device performance at lab-scale level into manufacturing-scale production. The analysis of solar cells containing non-fullerene acceptor (NFA) binary and ternary blends, as well as NFA plus fullerene acceptor (FA) ternary blends reveals that the thickness of the active layers is a significant challenge. However, the study also identifies promising strategies to improve the thickness tolerance (TT), which are discussed in the conclusion section.

ADVANCED MATERIALS (2023)

Add to Collection
Article Chemistry, Multidisciplinary

A 19% efficient and stable organic photovoltaic device enabled by a guest nonfullerene acceptor with fibril-like morphology

Hu Chen et al.

Summary: A nonfullerene acceptor isoIDITC with fibril-like morphology is utilized as a third component in organic photovoltaic devices, achieving a power conversion efficiency of 19%. The ternary blend shows an alloy model and a well-defined fibril-like network, enhancing crystallization and improving carrier mobility and lifetime compared to binary devices. The use of isoIDITC suppresses demixing and increases T80 lifetime, making it an important component for high-performance and stable ternary OPVs.

ENERGY & ENVIRONMENTAL SCIENCE (2023)

Add to Collection
Article Multidisciplinary Sciences

Gray level co-occurrence matrix and wavelet analyses reveal discrete changes in proximal tubule cell nuclei after mild acute kidney injury

Igor Pantic et al.

Summary: Acute kidney injury (AKI) is a sudden reduction in renal function caused by various conditions, with high morbidity, mortality, and treatment costs. AKI is associated with damage to proximal tubule cells (PTCs) and leads to distinct transcriptional and epigenetic alterations in the nuclei of these cells. The nuclear chromatin redistribution in PTCs during AKI is poorly understood, and it is unclear if conventional microscopy can detect chromatin changes during mild AKI. Gray level co-occurrence matrix (GLCM) and discrete wavelet transform (DWT) may provide valuable methods for identifying structural changes in nuclear chromatin architecture. This study demonstrates that GLCM and DWT can successfully detect subtle nuclear morphological alterations associated with mild tissue injury in a rodent model of AKI.

SCIENTIFIC REPORTS (2023)

Add to Collection
Article Green & Sustainable Science & Technology

What's Next for Organic Solar Cells? The Frontiers and Challenges

Yasunari Tamai

Summary: The power conversion efficiency of organic solar cells has greatly improved in recent years. However, there are still challenges in improving short-circuit current density, open-circuit voltage, and suppressing reflection and bimolecular charge recombination.

ADVANCED ENERGY AND SUSTAINABILITY RESEARCH (2023)

Add to Collection
Article Chemistry, Multidisciplinary

Realizing 19.05% Efficiency Polymer Solar Cells by Progressively Improving Charge Extraction and Suppressing Charge Recombination

Kaien Chong et al.

Summary: This work demonstrates highly efficient polymer solar cells by improving charge extraction and suppressing charge recombination through side-chain engineering, adopting ternary blends, and introducing volatilizable solid additives. The optimized molecular structure and blend morphology lead to improved fill factor and power conversion efficiency.

ADVANCED MATERIALS (2022)

Add to Collection
Article Chemistry, Physical

Toward High-Efficiency Organic Photovoltaics: Perspectives on the Origin and Role of Energetic Disorder

Wanyuan Deng et al.

Summary: The power conversion efficiency of organic photovoltaics is limited by the disordered nature of organic semiconductors. The emission line-shape in organic semiconductors is associated with a state-filling effect and can indicate the energetic disorder. Molecular geometry plays a crucial role in narrowing the energetic distribution and facilitating larger electron delocalization.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2022)

Add to Collection
Article Chemistry, Physical

Single-junction organic solar cells with over 19% efficiency enabled by a refined double-fibril network morphology

Lei Zhu et al.

Summary: Morphological control of donor and acceptor domains is crucial for efficient organic photovoltaics, and this study demonstrates a double-fibril network strategy to achieve a high power conversion efficiency of 19.3%.

NATURE MATERIALS (2022)

Add to Collection
Review Chemistry, Multidisciplinary

Renewed Prospects for Organic Photovoltaics

Guichuan Zhang et al.

Summary: Organic photovoltaics (OPVs) have undergone three stages of development, including optimizing bulk heterojunctions, improving donor-acceptor match, and developing non-fullerene acceptors (NFAs). NFAs have resulted in higher power conversion efficiencies (PCEs) surpassing 15% due to reduced energy losses and increased quantum efficiencies. The review provides an update on recent progress in OPV technology, including novel NFAs and donors, understanding structure-property relationships, and commercialization challenges.

CHEMICAL REVIEWS (2022)

Add to Collection
Article Multidisciplinary Sciences

Solar energy gets flexible

Robert F. Service

SCIENCE (2022)

Add to Collection
Review Polymer Science

Machine Learning for Organic Photovoltaic Polymers: A Minireview

Asif Mahmood et al.

Summary: Machine learning is a powerful tool that can revolutionize material science and aid the design and screening of materials for polymer solar cells. Despite facing challenges, it remains an important aspect of data science applications.

CHINESE JOURNAL OF POLYMER SCIENCE (2022)

Add to Collection
Review Chemistry, Physical

Wide-bandgap polymer donors for non-fullerene organic solar cells

Jiamin Cao et al.

Summary: This study provides an overview of the development of wide-bandgap polymers and classifies efficient polymers into five categories. The correlation between the chemical structures of these polymers and their photovoltaic performance is summarized and discussed. The results highlight the diversity of conjugated polymers and inspire chemists to develop more effective polymer materials for commercialization.

JOURNAL OF MATERIALS CHEMISTRY A (2022)

Add to Collection
Article Chemistry, Multidisciplinary

Multivariate analysis of peptide-driven nucleation and growth of Au nanoparticles

Kacper J. Lachowski et al.

Summary: In this study, we used a liquid-handling robot to synthesize gold nanostructures and developed new data analysis methods to compare the effects of peptides and peptide modifications on gold nanoparticle synthesis outcomes. The results showed that peptide modifications and reagent conditions can affect the size and shape of nanoparticles.

DIGITAL DISCOVERY (2022)

Add to Collection
Review Automation & Control Systems

Performance Prediction and Experimental Optimization Assisted by Machine Learning for Organic Photovoltaics

Zhi-Wen Zhao et al.

Summary: The improvements in organic photovoltaics (OPVs) have been accelerated by the introduction of data-driven methods using machine learning algorithms and known materials/experimental parameters knowledge. This has helped in building quantitative structure-property relationship models and speeding up molecular design and parameter optimization in OPV studies. This review summarizes recent promising progresses in experimental OPV datasets and introduces the general workflow of ML-OPV projects, along with their applications for predicting OPV performance and experimental optimizations. Additionally, future work directions in this rapidly developing field are discussed.

ADVANCED INTELLIGENT SYSTEMS (2022)

Add to Collection
Article Chemistry, Physical

Opportunities for Next-Generation Luminescent Materials through Artificial Intelligence

Ya Zhuo et al.

Summary: The search for luminescent materials for LED lighting and display applications has traditionally involved extensive experimental effort, but data-driven approaches in materials science are now providing an alternative pathway for discovery and development. This Perspective provides an overview of luminescent materials such as inorganic phosphors, quantum dots, and organic LEDs, with a focus on recent progress in using data-driven approaches to discover new compounds and optimize synthesis. Future research directions include utilizing artificial intelligence to further advance these fields and address challenges limiting the current application of AI techniques in luminescence-related research.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2021)

Add to Collection
Review Chemistry, Physical

The Path to 20% Power Conversion Efficiencies in Nonfullerene Acceptor Organic Solar Cells

Akchheta Karki et al.

Summary: The recent progress highlights how pairing new nonfullerene electron acceptors with suitable high-performing polymer electron donors has significantly improved the power conversion efficiencies of single-junction organic solar cells. Studies on the device photophysics of high performing polymer:NFA blends demonstrate the importance of morphology on efficiency, and further challenges need to be addressed in order to achieve PCEs of over 20% in NFA OSCs.

ADVANCED ENERGY MATERIALS (2021)

Add to Collection
Review Chemistry, Multidisciplinary

Data-Driven Strategies for Accelerated Materials Design

Robert Pollice et al.

Summary: The ongoing revolution in the natural sciences, driven by machine learning and artificial intelligence, has sparked significant interest in the material science community. To address the imminent climate catastrophe and transform to clean energy, the development of new materials is crucial. New materials, such as organic photovoltaics, show great potential in replacing existing materials and opening up new applications.

ACCOUNTS OF CHEMICAL RESEARCH (2021)

Add to Collection
Article Chemistry, Multidisciplinary

Experiment-Oriented Machine Learning of Polymer:Non-Fullerene Organic Solar Cells

Kakaraparthi Kranthiraja et al.

Summary: This study demonstrates the efficient use of machine learning for the development of organic photovoltaics, achieving high correlation coefficients for polymer and non-fullerene small molecule acceptor OPVs and virtual screening of numerous conjugated polymers. The results show the potential for ML in predicting and optimizing the performance of OPVs with a relatively small number of experimental data points.

ADVANCED FUNCTIONAL MATERIALS (2021)

Add to Collection
Article Chemistry, Physical

Machine Learning-Assisted Development of Organic Solar Cell Materials: Issues, Analyses, and Outlooks

Yuta Miyake et al.

Summary: This paper introduces the role of nonfullerene as an electron acceptor in improving the efficiency of organic photovoltaic devices, as well as the application of machine learning in accelerating material design and process optimization. The study shows that utilizing experimental data sets to assist machine learning can effectively boost OPV research.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2021)

Add to Collection
Article Chemistry, Physical

OCELOT: An infrastructure for data-driven research to discover and design crystalline organic semiconductors

Qianxiang Ai et al.

Summary: Recent advancements in computing power, theoretical methods, and data science techniques have enabled in silico materials discovery, allowing for faster and more efficient exploration of materials. The OCELOT infrastructure facilitates high-throughput calculations for crystalline organic semiconductors and is accessible through a web-user interface.

JOURNAL OF CHEMICAL PHYSICS (2021)

Add to Collection
Article Multidisciplinary Sciences

Active discovery of organic semiconductors

Christian Kunkel et al.

Summary: The versatility of organic molecules allows for a rich design space in organic semiconductors, which requires efficient search strategies. The active machine learning approach presented in this study rapidly identifies molecular OSC candidates with superior charge conduction properties, outperforming conventional computational methods. The method offers deep methodological insight and constantly discovers new candidates with high efficiency in the endless design space.

NATURE COMMUNICATIONS (2021)

Add to Collection
Article Chemistry, Multidisciplinary

18.5% Efficiency Organic Solar Cells with a Hybrid Planar/Bulk Heterojunction

Ling Hong et al.

Summary: Establishing an ideal architecture with selective carrier transport and suppressed recombination is crucial for improving photovoltaic efficiency in organic solar cells (OSCs). By tailoring a hybrid planar/bulk structure, highly efficient OSCs with reduced energy losses were fabricated. The study highlights the potential of precisely regulating the structure of donor:acceptor heterojunction to further enhance the efficiencies of OSCs.

ADVANCED MATERIALS (2021)

Add to Collection
Article Chemistry, Multidisciplinary

Fine-tuning of side-chain orientations on nonfullerene acceptors enables organic solar cells with 17.7% efficiency

Gaoda Chai et al.

Summary: Side-chain engineering plays a crucial role in optimizing Y-series nonfullerene acceptors (NFAs) for organic solar cells (OSCs). By investigating the orientation of side chains, it was found that the meta-positioned hexylphenyl group (m-BTP-PhC6) showed the most beneficial effects on optical absorption, intermolecular packing, and phase separation of NFAs, resulting in a device efficiency of 17.7% when paired with a donor polymer PTQ10. This study demonstrates that regulating side-chain orientations of Y-series NFAs is a promising strategy for achieving favorable morphology, high charge mobility, and improved solar cell performances.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

Add to Collection
Review Chemistry, Multidisciplinary

Accelerating organic solar cell material's discovery: high-throughput screening and big data

Xabier Rodriguez-Martinez et al.

Summary: The discovery of novel high-performing materials in organic solar cells has rapidly increased efficiency, but traditional experimentation methods are unable to evaluate the vast catalog of materials efficiently. High-throughput experimental and computational methods are being utilized to accelerate the discovery of new materials, with machine-learning algorithms playing a key role in retrieving quantitative structure-activity relationships.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

Add to Collection
Article Physics, Applied

A high throughput molecular screening for organic electronics via machine learning: present status and perspective

Akinori Saeki et al.

JAPANESE JOURNAL OF APPLIED PHYSICS (2020)

Add to Collection
Review Chemistry, Multidisciplinary

The Role of Machine Learning in the Understanding and Design of Materials

Seyed Mohamad Moosavi et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

Add to Collection
Article Chemistry, Multidisciplinary

Visualizing morphological principles for efficient photocurrent generation in organic non-fullerene acceptor blends

Wolfgang Koentges et al.

ENERGY & ENVIRONMENTAL SCIENCE (2020)

Add to Collection
Article Chemistry, Multidisciplinary

Toward Design of Novel Materials for Organic Electronics

Pascal Friederich et al.

ADVANCED MATERIALS (2019)

Add to Collection
Article Chemistry, Physical

Stable Postfullerene Solar Cells via Direct C-H Arylation Polymerization. Morphology-Performance Relationships

Thomas J. Aldrich et al.

CHEMISTRY OF MATERIALS (2019)

Add to Collection
Article Chemistry, Physical

Prediction of Intramolecular Reorganization Energy Using Machine Learning

Sule Atahan-Evrenk et al.

JOURNAL OF PHYSICAL CHEMISTRY A (2019)

Add to Collection
Article Chemistry, Physical

Insights from Machine Learning Techniques for Predicting the Efficiency of Fullerene Derivatives-Based Ternary Organic Solar Cells at Ternary Blend Design

Min-Hsuan Lee

ADVANCED ENERGY MATERIALS (2019)

Add to Collection
Article Multidisciplinary Sciences

Discoidin-domain receptor coordinates cell-matrix adhesion and collective polarity in migratory cardiopharyngeal progenitors

Yelena Y. Bernadskaya et al.

NATURE COMMUNICATIONS (2019)

Add to Collection
Review Chemistry, Physical

Machine learning for renewable energy materials

Geun Ho Gu et al.

JOURNAL OF MATERIALS CHEMISTRY A (2019)

Add to Collection
Review Chemistry, Multidisciplinary

Ternary Blend Strategy for Achieving High-Efficiency Organic Solar Cells with Nonfullerene Acceptors Involved

Xiaoyu Liu et al.

ADVANCED FUNCTIONAL MATERIALS (2018)

Add to Collection
Article Chemistry, Physical

Computer-Aided Screening of Conjugated Polymers for Organic Solar Cell: Classification by Random Forest

Shinji Nagasawa et al.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2018)

Add to Collection
Article Chemistry, Multidisciplinary

Mordred: a molecular descriptor calculator

Hirotomo Moriwaki et al.

JOURNAL OF CHEMINFORMATICS (2018)

Add to Collection
Article Chemistry, Analytical

The provenance of nephrite in China based on multi-spectral imaging technology and gray-level co-occurrence matrix

Dian Chen et al.

ANALYTICAL METHODS (2018)

Add to Collection
Review Multidisciplinary Sciences

Machine learning for molecular and materials science

Keith T. Butler et al.

NATURE (2018)

Add to Collection
Article Polymer Science

Crystallization of Sensitizers Controls Morphology and Performance in Si-/C-PCPDTBT-Sensitized P3HT:ICBA Ternary Blends

Xiaoyan Du et al.

MACROMOLECULES (2017)

Add to Collection
Article Nanoscience & Nanotechnology

Exploring Alkyl Chains in Benzobisthiazole-Naphthobisthiadiazole Polymers: Impact on Solar-Cell Performance, Crystalline Structures, and Optoelectronics

Eman Al-Naamani et al.

ACS APPLIED MATERIALS & INTERFACES (2017)

Add to Collection
Article Nanoscience & Nanotechnology

High-Throughput Image Analysis of Fibrillar Materials: A Case Study on Polymer Nanofiber Packing, Alignment, and Defects in Organic Field Effect Transistors

Nils E. Persson et al.

ACS APPLIED MATERIALS & INTERFACES (2017)

Add to Collection
Article Chemistry, Multidisciplinary

Naphthobischalcogenadiazole Conjugated Polymers: Emerging Materials for Organic Electronics

Itaru Osaka et al.

ADVANCED MATERIALS (2017)

Add to Collection
Review Chemistry, Multidisciplinary

Conjugated-Polymer Blends for Organic Photovoltaics: Rational Control of Vertical Stratification for High Performance

Yu Yan et al.

ADVANCED MATERIALS (2017)

Add to Collection
Article Chemistry, Physical

Design of efficient molecular organic light-emitting diodes by a high-throughput virtual screening and experimental approach

Rafael Gomez-Bombarelli et al.

NATURE MATERIALS (2016)

Add to Collection
Article Nanoscience & Nanotechnology

Quantifying Hole Transfer Yield from Perovskite to Polymer Layer: Statistical Correlation of Solar Cell Outputs with Kinetic and Energetic Properties

Naoki Ishida et al.

ACS PHOTONICS (2016)

Add to Collection
Review Chemistry, Multidisciplinary

Exciton diffusion in organic semiconductors

Oleksandr V. Mikhnenko et al.

ENERGY & ENVIRONMENTAL SCIENCE (2015)

Add to Collection
Article Chemistry, Physical

Simulated evolution of fluorophores for light emitting diodes

Yinan Shu et al.

JOURNAL OF CHEMICAL PHYSICS (2015)

Add to Collection
Article Chemistry, Physical

Exciton Diffusion in Conjugated Polymers: From Fundamental Understanding to Improvement in Photovoltaic Conversion Efficiency

Yasunari Tamai et al.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2015)

Add to Collection
Article Chemistry, Multidisciplinary

Polymer Solar Cells: Solubility Controls Fiber Network Formation

Jacobus J. van Franeker et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2015)

Add to Collection
Article Chemistry, Physical

Models of charge pair generation in organic solar cells

Sheridan Few et al.

PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2015)

Add to Collection
Article Chemistry, Multidisciplinary

Effect of dye end groups in non-fullerene fluorene- and carbazole-based small molecule acceptors on photovoltaic performance

Yujeong Kim et al.

RSC ADVANCES (2015)

Add to Collection
Review Chemistry, Multidisciplinary

Mesoscopic Features of Charge Generation in Organic Semiconductors

Brett M. Savoie et al.

ACCOUNTS OF CHEMICAL RESEARCH (2014)

Add to Collection
Article Chemistry, Multidisciplinary

Mapping Orientational Order in a Bulk Heterojunction Solar Cell with Polarization-Dependent Photoconductive Atomic Force Microscopy

Christopher J. Takacs et al.

ACS NANO (2014)

Add to Collection
Article Chemistry, Multidisciplinary

Understanding How Processing Additives Tune the Nanoscale Morphology of High Efficiency Organic Photovoltaic Blends: From Casting Solution to Spun-Cast Thin Film

Ming Shao et al.

ADVANCED FUNCTIONAL MATERIALS (2014)

Add to Collection
Review Chemistry, Multidisciplinary

25th Anniversary Article: Bulk Heterojunction Solar Cells: Understanding the Mechanism of Operation

Alan J. Heeger

ADVANCED MATERIALS (2014)

Add to Collection
Review Chemistry, Physical

Phase Separation in Bulk Heterojunctions of Semiconducting Polymers and Fullerenes for Photovoltaics

Neil D. Treat et al.

ANNUAL REVIEW OF PHYSICAL CHEMISTRY, VOL 65 (2014)

Add to Collection
Article Chemistry, Physical

The Impact of Fullerene Structure on Its Miscibility with P3HT and Its Correlation of Performance in Organic Photovoltaics

Huipeng Chen et al.

CHEMISTRY OF MATERIALS (2014)

Add to Collection
Review Chemistry, Multidisciplinary

Visualizing physical, electronic, and optical properties of organic photovoltaic cells

Martin Pfannmoeller et al.

ENERGY & ENVIRONMENTAL SCIENCE (2013)

Add to Collection
Review Chemistry, Multidisciplinary

Quantitative Determination of Organic Semiconductor Microstructure from the Molecular to Device Scale

Jonathan Rivnay et al.

CHEMICAL REVIEWS (2012)

Add to Collection
Article Chemistry, Multidisciplinary

Effect of Processing Additive on the Nanomorphology of a Bulk Heterojunction Material

Ji Sun Moon et al.

NANO LETTERS (2010)

Add to Collection
Article Chemistry, Multidisciplinary

Morphology Control in Solution-Processed Bulk-Heterojunction Solar Cell Mixtures

Adam J. Moule et al.

ADVANCED FUNCTIONAL MATERIALS (2009)

Add to Collection
Article Physics, Applied

Origin of frequency-dependent line edge roughness: Monte Carlo and fast Fourier-transform studies

Akinori Saeki et al.

APPLIED PHYSICS LETTERS (2009)

Add to Collection
Article Chemistry, Multidisciplinary

Spatial Fourier-transform analysis of the morphology of bulk heterojunction materials used in plastic solar cells

Wanli Ma et al.

ADVANCED MATERIALS (2007)

Add to Collection
Webinars Posters Questions Hubs Funding Journals Papers Connect Collections Reviewers About Us FAQs Mobile App Privacy Policy Terms of Use
© Peeref 2019-2024. All rights reserved.