Research Articles
Light Speaks: Professor Xianfeng Chen Illuminates the Integrated Photonics Revolution
Exploring Professor Xianfeng Chen's groundbreaking work in integrated photonics and its revolutionary applications in computing, agriculture, and sustainability.
The Tiny Warriors Within: How Bacterial Cell Division Genes Are Revolutionizing Cancer Therapy
Exploring how bacterial cell division genes are being harnessed to create minicell technology for revolutionary cancer therapies.
The Light-Squeezers: How Ultrasmall Nanogaps in Plasmonic Particles Are Revolutionizing Tech
Exploring the revolutionary potential of plasmonic nanoparticles with ultrasmall nanogaps for advanced technologies in sensing, computing, and energy.
Architects of the Invisible: Engineering Life's Building Blocks into Tomorrow's Materials
Exploring how rationally designed protein building blocks enable programmable hierarchical architectures for advanced materials
The Molecular LEGO Kit: How Hybrid Polyoxometalates Are Revolutionizing Materials Science
Explore how hybrid polyoxometalates (POMs) are transforming materials science through post-functionalization, enabling applications in catalysis, medicine, and energy storage.
Seeing the Unseeable: How "Click & Correct" Tech is Revolutionizing Eye Scans
Discover how interactive AI is transforming retinal imaging by combining human expertise with artificial intelligence for more accurate eye disease diagnosis.
The Invisible Surgeons: How Chemical Reactions Build Tiny Cancer Fighters Inside Your Body
Exploring peptide self-assembly nanotechnology for targeted cancer therapy through chemical triggers in tumor microenvironments.
The Invisible Scalpel: How Atmospheric Pressure Plasma is Revolutionizing Medicine
Exploring how atmospheric pressure plasma is transforming medicine through wound healing, cancer treatment, and antimicrobial applications.
The Genetic Scissors: How CRISPR-Cas9 is Rewriting the Code of Life
Explore the revolutionary CRISPR-Cas9 gene-editing technology, its breakthrough applications, and the ethical implications of rewriting life's code.
The Invisible World of Fibers: How Electron Beams Unravel Nature's Tiny Architectures
Explore how micro/nanobeam scanning diffraction techniques reveal the hidden structures of fibrous materials at atomic scales.