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The insights from the review could lead to the innovation of novel materials and devices to manage and control transport at the nanoscale.

The device works both as a reconfigurable memory component and as a programmable shift register.

A new type of reconfigurable, scalable, low power hardware security device with high resilience to AI attacks has been developed.

The mathematical tool accounts for complex systems where changes do not occur instantaneously, making it more suitable for studying cities.

A new type of code to realise an energy-efficient continual learning system has been recently designed by a team of researchers.

Different species of 2D materials can be ‘LEGO-stacked’ into a van der Waals heterostructure; SUTD scientists designed a novel functional 2D hybrid material for ultracompact memory and spintronic device applications.

SUTD developed a microsize-gap multiple-shot electroporation (M2E) device that could improve the effectiveness of delivering cancer drugs at a lower cost, globally.

The SUTD-led study leverages systematic design and molecular engineering to develop brighter, more sensitive fluorophores used in detection probes and imaging labels.

SUTD has set out to apply concepts from quantum Parrondo’s paradox in search of a working protocol for semiclassical encryption.

SUTD introduced a nanoscale deposit-only-metal-electrode fabrication process for artificial synapse for the first time.