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Results for "Genetics & Molecular Biology"

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#1471Computer Science & AIFront Page17 November 2025

Multimodal AI Sharpens Kidney Cancer Prognosis

Researchers have created an AI model that fuses clinical data, CT scans, and tissue images to predict renal cancer recurrence with superior accuracy. By correcting risk classifications, the tool helps doctors avoid both inadequate and excessive treatments for patients.

By Zang, Xia, Xiao, Luo, Si, Hou, Haoni, Chen, Liu, Pu, Zi, Xu, Zhu, Xu, Wang, Wang, Xia, Cao, Yin, Wang, Wu, Kong, Huang, Zhang, Chen, Huang, Leung, Teoh, Wang, Liang, Zheng, Yu, Zhai

#1472Chemistry & Material ScienceFront Page21 November 2025

A Self-Healing 'Skin' for Safer Solar Cells

Researchers have developed a self-healing polymer to encapsulate perovskite solar cells, solving critical issues regarding instability and toxic lead leakage. This innovative material repairs cracks in just six minutes and maintains high efficiency even after rigorous environmental stress testing.

By Wang, Xin, Zhao, Liu, Bu, Li, Lu

#1473Chemistry & Material ScienceFront Page18 November 2025

Tiny 'Bottlebrushes' Glow to Signal Chemical Changes

Scientists have engineered a stable, single-molecule polymer shaped like a bottlebrush that glows to report environmental shifts. By embedding special dyes within a protective shell, these structures act as robust nanoscale sensors for pH levels.

By Zhang, Catt, Hawtrey, Zeng, Zeng, Kerai, Cheng, Hopp, Yang, New, Blasco, Müllner

#1474Chemistry & Material ScienceFront Page1 December 2025

Zincing the Ship: A Catalyst for Self-Destructing Bioplastics

Researchers have successfully utilised a highly active zinc catalyst to accelerate the depolymerisation of common bioplastics. By embedding the catalyst directly into the material, the study paves the way for polymers that are primed for efficient chemical recycling.

By Burgevin, Stewart, May, Cullen, Buchard, Davidson, Jones

#1475Genetics & Molecular BiologyFront Page18 November 2025

Tiny Molecules, Massive Impact: How MicroRNAs Shield Wheat from Heat

MicroRNAs are essential genetic regulators that control how wheat responds to damaging heat stress. By using gene-editing tools like CRISPR/Cas9 to modify these molecules, scientists aim to breed climate-resilient crops to secure food supplies.

By Warkad, Kumar, Gampa, Goswami, T., Kumar, Dalal, Mishra, Jha, C., Kumar

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