Research news

SUTD researchers’ new approach finds that preheating gelatin extended its 3D printing time compared to freshly prepared gelatin and enhanced the printability of the ink.

The Greyhound framework, named after the breed of dogs known for their hunting abilities, was designed to systematically sniff out security lapses in Wi-Fi and Bluetooth enabled devices.

Additive free, multimaterial 3D printing is achieved for milk-based products without temperature control.

A simple manufacturing technology based on chitin, one of the most ubiquitous organic polymers on Earth, could be used to build tools and shelters on Mars.

SUTD led in the development of an intelligent model simulator that predicts complex phenomena of memristor memory to enable the production of a cheaper faster memory.

The versatility of 3D printing has enabled on demand solutions for needs ranging from personal protection equipment to medical devices and isolation wards.

Researchers 3D printed a micro-scaled physical device to demonstrate a new level of control in the directed differentiation of stem cells, enhancing the production of cardiomyocytes.

Researchers demonstrate a “quasi-solid-state” battery that can be compressed by as much as 60%.

Scientists create a stronger, tougher nacre mimic for sustainable medical materials.

SUTD collaborated with Keio University to design and fabricate a versatile platform to replicate the pulsatile blood flow in blood vessels.