The MRS Medal for discovery of graphene thermal properties

Dr. Alexander Balandin

The first room temperature charge-density-wave devices and all-metallic switches based on 2D materials

Applied Physics Letters (2020)

Nature Nanotechnology (2016)

The discrete noise of magnons – The first experimental study of the noise of magnons in spintronic devices

Applied Physics Letters (2019)

Phonons and spin-lattice coupling in antiferromagnetic materials

ACS Nano (2020)

Applied Physics Letters (2017)

Dr. Alexander Balandin is Deputy Editor-in-Chief of Applied Physics Letters

Visit the Journal

Extraordinary radiation hardness of charge-density-wave device: electronics without transistors

Nanoscale (2019)

Nanofabricating devices for the quantum leap

Adane Geremew

Read about new NDL and POEM Center research grants from NSF and DOE

Phonon and photon spectrum engineering

Nanotechnology (2020)

Nature Communications (2016)

Brillouin-Mandelstam spectroscopy: probing GHz acoustic phonons

Dr. Fariboz Kargar

Raman optothermal technique developed by Balandin's group for 2D materials

ACS Nano (2020)

Nature Materials (2011)

Nature Materials (2010)

Dr. Alexander Balandin is a recipient of the IEEE Pioneer Award in Nanotechnology. He is recognized as the Highly Cited Researcher according to Clarivate Analytics.

Dr. Alexander Balandin received The Brillouin Medal award from the International Phononics Society

State-of-the-art low-frequency noise laboratory – Electronic noise as the signal and sensing parameter

Nano Letters (2018)

Nature Nanotechnology (2013)

Record-high current densities in 2D and 1D van der Waals materials

Electron Device Letter (2018)

Nano Letters (2018)

Visible and UV micro-Raman spectroscopy: from ultra-low to high wave numbers

Ece Aytan

Integrated 2D materials unlock graphene applications - from voltage-controlled oscillators to logic gates

Electron Device Letters (2018)

 UC Riverside Nanofabrication Cleanroom Facilities

Ultra Materials for a Resilient, Smart Electricity Grid