High efficiency organic solar cells

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A polymer bilayer hole transporting layer architecture

Two major bottlenecks for organic photovoltaic module production are device stability and the development of an architecture that allows using the newest high-efficiency active layer materials in large-scale solution

High-efficiency organic solar cells enabled by

High-efficiency organic solar cells enabled by nonfullerene acceptors with varying alkyloxy substitution positions of the phenyl outer side chains † Huanran Feng, ‡ *a Changzun Jiang, ‡ b Zhixiang Li,b Xiangjian

Strategies to achieve efficiencies of over 19% for

Finally, we propose future research directions to achieve high-efficiency organic solar cells. We also expect that this review will contribute to guiding large-scale construction and will pave the way for eventual

High-Efficiency and Low-Energy-Loss Organic Solar

Solar energy is the most innovative source of green energy with feasible properties, and photovoltaic cells play a crucial role in converting sunlight into electricity. (1) Organic solar cells have gained significant attention in recent

Sustainable Solution Processing Toward

Organic solar cells (OSCs) have emerged as promising candidates for renewable energy harvesting due to their lightweight, flexible, and low-cost fabrication potential. The efficiency of OSCs is largely determined by

A high-efficiency and stable organic solar cell with

Obtaining controllable morphology in organic solar cells (OSCs) has long been sought to improve the photovoltaic efficiency and long-term stability for meaningful applications. Herein, we report a conceptual multiple acceptor

High-Efficiency Ternary Organic Solar Cells with a

Here, we combine two donor polymers with a relatively short synthesis method and fabricate ternary organic solar cells (OSCs) with a high efficiency and a decent figure-of-merit. A series of characterizations show that

High-efficiency organic solar cells from low-cost

Achieving high power conversion efficiencies (PCEs) from low-cost materials is essential for the commercialization of organic solar cells (OSCs). Herein, three A–DA′D–A-type pentacyclic fused-ring electron acceptors

High-efficiency, ultra-flexible organic solar cells

Organic solar cells (OSCs) offer the attraction of mechanical flexibility, enabling unique application scenarios for wearable devices. This study reports the incorporation of chloroprene rubber (CR) as a third component in

High-efficiency organic solar cells prepared using a

In many cases, processing of organic photovoltaics uses conventional halogenated solvents, such as chloroform and chlorobenzene, which are significantly harmful to health and the environment. Wibowo et al. report a

High-efficiency organic solar cells with low non

Energy loss within organic solar cells (OSCs) is undesirable as it reduces cell efficiency 1,2,3,4. In particular, non-radiative recombination loss 3 and energetic disorder 5, which are closely related to the tail states below the band edge and

High‐Efficiency Organic Solar Cells Enabled by

High-Efficiency Organic Solar Cells Enabled by Non-Fullerene Acceptors with Benzimidazole as the Central Core Key Laboratory of Functional Polymer Materials, College of Chemistry, Nankai University, Tianjin, 300071

High-Efficiency and Low-Energy-Loss Organic Solar

Introduction Organic solar cells (OSCs) have attracted much attention from both academia and industry, owing to their potential as a next-generation photovoltaic technology. 1,2 Decades of research efforts have

How efficient are organic solar cells?

Such breakthroughs enable large-area modules with a certified power conversion efficiency of 18.04%. Organic solar cells (OSCs) have garnered considerable attention recently, especially after the innovation of narrow-bandgap small-molecule acceptors (SMAs) 1, 2, 3, 4.

Can organic solar cells achieve high-efficiency power conversion efficiencies above 19%?

This review highlights the latest progress in terms of active material design, interface material development, device technology, and various proposed strategies aimed at achieving power conversion efficiencies above 19%. Finally, we propose future research directions to achieve high-efficiency organic solar cells.

Do high-efficiency organic solar cells control morphology?

Zhang R, Chen H, Wang T, et al. Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control. Nat Energy, 2025, 10: 124–134 Correspondence to Zhi-Guo Zhang or Yingping Zou. Zhang, H., Zhang, ZG. & Zou, Y. High-efficiency organic solar cells with solvent-insensitive morphology.

How efficient are single-junction organic solar cells?

The resultant single-junction organic solar cells exhibited a certified power conversion efficiency of over 20%, as well as demonstrated exceptional adaptability across the active layer thicknesses (100–400 nm) and remarkable universality. Such breakthroughs enable large-area modules with a certified power conversion efficiency of 18.04%.

Are organic solar cells suitable for wearable devices?

Can tandem organic solar cells improve power conversion efficiency?

In the field of organic photovoltaics, the power conversion efficiency of single junction solar cells continues to improve. However, tandem organic solar cells are poised to push the efficiency limits even further and offer a promising avenue for improving the performance of organic photovoltaic devices.