Nanoscience and nanotechnology

We conducts extensive research into the design, growth and fabrication of semiconductor and optical devices on the nanometer scale using techniques ranging from MOCVD growth to ion beam processing. Such devices by virtue of their scale, exploit quantum effects to enhance their performance. A large part of this research program focuses on quantum well lasers and detectors of importance to the telecommunications industry.

We also research the nanoscale modification of bulk materials such as nanocrystals within semiconductors induced by ion irradiation. materials modified in this way can have unusual and technologically useful properties such as light emission at wavelengths incompatible with the bulk material band structure.

Nanotubes as their name suggests are microscopically small pipes of material such as carbon - like an elongated form of a "buckie ball". These have exciting properties such as unimaginably high tensile strengths and the School has an active research program on the efficient production of nanotubes by mechano chemistry.

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Bottom-Up Nanolasers for Next-Generation Integrated Nanophotonics

This project develops bottom-up, epitaxially-grown nanolaser cavities with atomically smooth facets that overcome scattering losses in top-down fabricated devices. By exploring advanced cavity concepts—including flatband and topological nanolasers—it aims to deliver robust, scalable, and low-threshold light sources, redefining nanolaser technology for next-generation integrated photonic systems.

Dr Wei Wen Wong, Professor Hoe Tan, Professor Chennupati Jagadish

Laser-written nanostructures for future photonics

Use lasers to sculpt matter at the nanoscale! In this project you’ll create shimmering holographic patterns and functional nanostructures on metals and glasses, exploring their applications in photonics, anti-counterfeiting, and smart coatings—all while uncovering the physics of light–matter interaction.

Professor Ilya Shadrivov, Dr Vladlen Shvedov, Dr Yana Izdebskaya

Nanowire infrared avalanche photodetectors towards single photon detection

This project aims to demonstrate semiconductor nanowire based infrared avalanche photodetectors (APDs) with ultra-high sensitivity towards single photon detection. By employing the advantages of their unique one-dimensional nanoscale geometry, the nanowire APDs can be engineered to different device architectures to achieve performance superior to their conventional counterparts. This will contribute to the development of next generation infrared photodetector technology enabling numerous emerging fields in modern transportation, communication, quantum computation and information processing.

Professor Lan Fu, Dr Zhe (Rex) Li, Professor Chennupati Jagadish

Nano-Scale III-V Light Sources on Si

This project tackles the long-standing challenge of integrating efficient light sources on silicon by enabling direct epitaxy of InP/InAsP nanostructures. By engineering the III-V/Si interface to overcome lattice and polarity mismatch, it aims to unlock scalable, energy-efficient Si photonics critical for AI data centres and next-generation computing infrastructure.