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Academic Publication Tuning of the Polymeric Nanofibril Geometry via Side-Chain Interaction toward 20.1% Efficiency of Organic Solar Cells
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Molecular interaction induced dual fibrils towards organic solar cells with certified efficiency over 20%
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Non-fullerene acceptor with asymmetric structure and phenyl-substituted alkyl side chain for 20.2% efficiency organic solar cells
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Interfacial configurational entropy tuning strategy enabling liquid alloys for efficient depolymerization of polyolefin waste
Breaking down durable polyolefins into reusable building blocks remains difficult. A tailored liquid alloy catalyst converts real waste into light olefins with high yield and stability, even under ...
Achieving 20.8% organic solar cells via additive-assisted layer-by-layer fabrication with bulk p-i-n structure and improved optical management
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Unveiling the synergistic mechanism of C-F and C-Cl bonds in enhancing the triboelectric performance of fluorinated polymers
Achieving superior tribo-negative performance beyond traditional fluorinated polymers (TFPs) is crucial for advancing triboelectric devices. In this work, we identified an approach to enhance the t...
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What is the core focus of the research titled 'Tuning of the Polymeric Nanofibril Geometry via Side-Chain Interaction toward 20.1% Efficiency of Organic Solar Cells'?
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What other academic literature is closely related to 'Tuning of the Polymeric Nanofibril Geometry via Side-Chain Interaction toward 20.1% Efficiency of Organic Solar Cells'?
Yes, highly correlated activity was mapped. An entry titled 'Molecular interaction induced dual fibrils towards organic solar cells with certified efficiency over 20%' discusses this: No description provided.
Are there commercial applications of 'Tuning of the Polymeric Nanofibril Geometry via Side-Chain Interaction toward 20.1% Efficiency of Organic Solar Cells' in market news publications?
Yes, highly correlated activity was mapped. An entry titled 'Interfacial configurational entropy tuning strategy enabling liquid alloys for efficient depolymerization of polyolefin waste' discusses this: Breaking down durable polyolefins into reusable building blocks remains difficult. A tailored liquid alloy catalyst converts real waste into light ...
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