New types of 2D and 3D stimuli‐responsive materials can be constructed by integrating molecular machines as part of their building blocks.
An artificial cell, which uses a microfluidics-based approach to engineer a modular and programable artificial‐cell‐on‐chip.
Novel photonic device concepts can be realized with transition metal dichalcogenides.
Carbon nanomaterials are promising therapeutic and diagnostic agents for healthcare applications including imaging and drug-delivery.
Scanning probe microscopy is a powerful characterization tool for studying MCP in materials.
The high theoretical capacitance of manganese oxide makes it appealing as an electrode material for batteries, but several obstacles remain.
The NIR-II window holds great potential in biological imaging.
Non-pathogenic bacteria can colonize different surfaces to help direct human stem cells to bone cells.
Researchers design a new type of QR code that is nearly transparent under daylight and compatible with flexible devices.
Micropillars fabricated by 3D direct laser writing create superoleophobic and superhydrophobic surfaces.
Researchers devise an effective method to reduce transplant rejection following surgery.
A fibrin/laminin hydrogel that supports organoid growth from multiple tissues is developed as a substitute for BME scaffolds.