Publications

High Resolution Imaging Show All
  • clive downing
  • Louise Colfer
  • michael schmidt
  • Valeria Nicolosi
  • Lynette Keeney
  • Mr Kalani Moore
  • Mr Eoghan O' Connell
  • Prof Ursel Bangert
  • Dr Michele (Shelly) Conroy

Multiferroic topologies are an emerging solution for future low-power magnetic nanoelectronics due to their combined tuneable functionality and mobility. Here,…

This article details the analytical electron microscopy techniques that can provide atomically resolved and quantitative chemical compositional as well as…

  • Somak Mitra
  • Kuang-Hui Li
  • Idris Ajia
  • Edgars Stegenburgs
  • Dalaver H. Anjum
  • Iman S. Roqan
  • Tien Khee Ng
  • B. Ooi
  • Dr Michele (Shelly) Conroy
  • Mr Kalani Moore
  • Prof Ursel Bangert

Heavy reliance on extensively studied AlGaN based light emitting diodes (LEDs) to replace environmentally hazardous mercury based ultraviolet (UV) lamps…

  • Killian Stokes
  • Ibrahim Saana Amiinu
  • Hugh Geaney
  • Tadhg Kennedy
  • Ms Temilade Esther Adegoke
  • Dr Michele (Shelly) Conroy

A scalable and cost‐effective process is used to electroplate metallic Zn seeds on stainless steel substrates. Si and Ge nanowires…

  • Yaqi Li
  • Edoardo Zatterin
  • Gilbert A. Chahine
  • Petr Ondrejkovic
  • Pavel Marton
  • Jiri Hlinka
  • Steven Leake
  • Pavlo Zubko
  • Dr Michele (Shelly) Conroy
  • Mr Kalani Moore
  • Mr Eoghan O' Connell
  • Prof Ursel Bangert

Simultaneous manipulation of multiple boundary conditions in nanoscale heterostructures offers a versatile route to stabilizing unusual structures and emergent phases.…

  • Andrew Bell
  • Marty Gregg
  • Charlotte Cochard
  • Jennifer Mackel
  • Mr Kalani Moore
  • Dr Michele (Shelly) Conroy
  • Prof Ursel Bangert
  • Dr Alan Harvey

Charged domain walls (DWs) in ferroelectric materials are an area of intense research. Microscale strain has been identified as a…

  • michael schmidt
  • clive downing
  • Valeria Nicolosi
  • Mr Kalani Moore
  • Prof Ursel Bangert
  • Dr Michele (Shelly) Conroy
  • Mr Eoghan O' Connell

Multiferroic domain walls are an emerging solution for future low-power nanoelectronics due to their combined tuneable functionality and mobility. Here…

  • clive downing
  • roger whatmore
  • Alexei Gruverman
  • Marty Gregg
  • Dr Michele (Shelly) Conroy
  • Mr Kalani Moore
  • Mr Eoghan O' Connell
  • Prof Ursel Bangert

Dynamic charged ferroelectric domain walls (CDWs) overturn the classical idea that our electronic circuits need to consist of fixed components…

  • Micheal Scanlon
  • Dr Michele (Shelly) Conroy
  • Mr Kalani Moore
  • Prof Ursel Bangert

In operando failure analysis at extreme device conditions down to the atomic scale has only recently been made possible by…

Ferroelectric domain walls (DWs) are the subject of intense research at present in the search for high dielectric, gigahertz responsive…

  • Manuel Auge
  • Minh Bui
  • Beata Kardynal
  • Mr Michael Hennessy
  • Mr Eoghan O' Connell
  •  Eoin Moynihan
  • Prof Ursel Bangert

Here we show results of ultra-low energy ion implantation of chromium into monolayer TMDCs (MoS2, MoSe2, WS2 and WSe2). Atomic…

We have made observations of noble metal phase fission-product agglomerates and gaseous xenon within the fuel-cladding interaction (FCI) zone of…