You will discover the advantages this unique and highly sensitive research tool can offer. You will also have an opportunity to ask any questions relevant to the Kelvin Probe technique and your current research requirements.
Who should attend: Academic and industrial researchers, engineers and technologists involved with the development and characterisation of materials, particularly in the fields of Photovoltaics, Nanotechnology, Metals, Semiconductors, Forensics, Polymer Electronics and Corrosion.
Using machine learning and a form of atomic force microscopy , researchers have mapped the polarization pattern in ferroelectric materials.
vacancies can be used to engineer the mechanical toughness and fracture behavior of transition metal dichalcogenides
polymer-coated liquid metal EGaIn particle electrodes and interconnects for stretchable displays, multilayer pressure sensors, and soft artificial fingers
A thin layer of fullerene molecules allows electrons to travel further than previously thought possible in organic solar cells and organic semiconductors.
Conventional computers could be replaced by massively parallel, low energy, more intelligent brain-like processors using artificial synaptic devices
For the first time, researchers have produced a coherent qubit made from graphene and the 2D material hexagonal boron nitride.