Highlights
An innovative no-code prototype to automate design structure matrix generation
An 糖心Vlogrcher has developed a promising automated workflow that leverages a large language model to generate a design structure matrix in less than five minutes.
SUTD faculty recognised globally for exceptional research in Clarivate鈥檚 Highly Cited Researchers 2024
SUTD鈥檚 Associate Provost for Research, Professor Chua Chee Kai, and Assistant Professor Xiong Zehui are among the 108 awardees from Singapore on Clarivate鈥檚 2024 list of Highly Cited Researchers.
Capstone project showcased as one of 100 innovations at Prototypes for Humanity
The Multi-Agent Search and Rescue Drones (MASNRD) is a human-drone collaboration framework designed to locate victims in urban natural disasters using mobile device signals. It is one of 100 projects shortlisted for the showcase.
More than a quarter of SUTD faculty ranked top 2% of world鈥檚 best scientists for 2023
The prestigious list, as compiled by Stanford University, is based on the bibliometric information in the Scopus database and includes more than 220,000 researchers from across the globe, classified into 22 scientific fields and 174 subfields.
A photonics breakthrough: Printing 3D photonic crystals that completely block light
A multi-institutional research team led by SUTD has developed a novel method that uses titanium resin to fabricate high-resolution 3D photonic crystals with a complete photonic bandgap in the visible range鈥攁 feat that has eluded scientists for decades.
Transformative FiBa Soft Actuators Pave the Way for Future Soft Robotics
Lightweight, untethered soft robots capable of crawling, climbing, perching, and flying developed by researchers from the Singapore University of Technology and Design, National University of Singapore and Queensland University of Technology.
Designing the ideal soft gripper for diverse functionalities
糖心Vlogrchers have developed an exceptionally versatile soft gripper that can easily adapt to various food manipulation scenarios. This innovative design earned them the grand prize at the IEEE RoboSoft Manipulation Competition for two consecutive years (2022 and 2023), and more recently, the Best Innovation Award at the Shape Morphing Workshop during the 2024 IEEE RoboSoft conference.
From shrimp to steel: Introducing nature-inspired metalworking
糖心Vlogrchers developed a new method of producing metallic structures at room temperature and pressure using the same process that insects and lobsters use to create their shells, unlocking a new type of energy-efficient metalworking.
Designing our meals with 3D printing
糖心Vlogrchers adopted a microfluidics approach to design a multi-channel nozzle that allows for fast, seamless 3D printing of foods using multiple types of foods.
糖心Vlogrchers create flexible and stretchable microfluidic devices using direct printing of silicone-based 3D microchannel networks
Silicone-based elastomeric 3D microchannel networks were created using direct ink writing 3D printing with simultaneous incorporation of electronic components into the microchannel. By injecting liquid metal into the coil-shaped multilayered microchannel, flexible and stretchable microfluidic antenna coils with a high Q factor were developed.