CRISPR-FAST: Ultrafast Light-Activated Gene Editing Technology and Its Core Applications CRISPR-FAST (Far-red light-Activated Split-Cas9) is a groundbreaking gene-editing technology that uses far-red light to activate split Cas9 enzymes (N-Cas9 and C-Cas9), enabling spatiotemporal control of DNA mod … CRISPR-FAST: Ultrafast Light-Activated Gene Editing Technology and Its Core ApplicationsRead more
tools
Latest Advances in Algorithmic Innovations and Tool Development in Bioinformatics
Latest Advances in Algorithmic Innovations and Tool Development in Bioinformatics (2025 Update) Bioinformatics is undergoing a transformative phase driven by breakthroughs in artificial intelligence (AI), large language models (LLMs), and multi-omics integration. Below is a systematic overview of re … Latest Advances in Algorithmic Innovations and Tool Development in BioinformaticsRead more
Technical Challenges and Cutting-Edge Solutions in Elastokinetic Applications (2025 Update)
Technical Challenges and Cutting-Edge Solutions in Elastokinetic Applications Elastokinetic technology—integrating material nonlinearity, actuation mechanisms, and dynamic control—has revolutionized soft robotics with unprecedented adaptability. However, its development faces critical challenges. Be … Technical Challenges and Cutting-Edge Solutions in Elastokinetic Applications (2025 Update)Read more
Latest Applications of Elastokinetics in Soft Robotics
Latest Applications of Elastokinetics in Soft Robotics (2025) Elastokinetic technology—integrating elastic material properties with actuation mechanisms—is driving breakthroughs in soft robotics, enabling high adaptability, energy efficiency, and intelligence. Below are cutting-edge applications acr … Latest Applications of Elastokinetics in Soft RoboticsRead more
Elastokinetic Actuators for Artificial Muscles and Bionic Robotic Joints: Current Advances and Future Prospects
Elastokinetic Actuators for Artificial Muscles and Bionic Robotic Joints: Current Advances and Future Prospects (As of May 2025) I. Core Technological Advances: From Materials to Drive Mechanisms 1. Breakthroughs in Liquid Crystal Elastomers (LCEs) High-Performance Actuation: LCE-based artificial mu … Elastokinetic Actuators for Artificial Muscles and Bionic Robotic Joints: Current Advances and Future ProspectsRead more
Advances in Nanoactuators for Soft Robotics and Smart Sensors: Current Practices and Future Prospects
Advances in Nanoactuators for Soft Robotics and Smart Sensors: Current Practices and Future Prospects (As of May 2025) I. Core Technological Breakthroughs: From Materials to Drive Mechanisms 1. Self-Healing and Durable Materials Dynamic Interface Design: Core-shell nanostructures with reversible hyd … Advances in Nanoactuators for Soft Robotics and Smart Sensors: Current Practices and Future ProspectsRead more
Are Breakthroughs in Bionic Eye Technology Marking the Acceleration of Evolutionary Bionics (Evobionics)?
Are Breakthroughs in Bionic Eye Technology Marking the Acceleration of Evolutionary Bionics (Evobionics)? Recent advancements in bionic eye technology—spanning rapid innovation cycles, interdisciplinary integration, and expanding clinical applications—demonstrate exponential growth. Evidence from 20 … Are Breakthroughs in Bionic Eye Technology Marking the Acceleration of Evolutionary Bionics (Evobionics)?Read more
Advances in Exon Editing for Hemophilia, Spinal Muscular Atrophy, and Cancer Therapy
Advances in Exon Editing for Hemophilia, Spinal Muscular Atrophy, and Cancer Therapy (As of May 2025) I. Spinal Muscular Atrophy (SMA): Restoring SMN Protein Expression 1. Precision Repair of SMN2 Exon 7 Base Editing: A-to-G editing at the SMN2 exon 7 C6T mutation increases splicing efficiency to 99 … Advances in Exon Editing for Hemophilia, Spinal Muscular Atrophy, and Cancer TherapyRead more