Skip to main content
  • DE
  • EN
  • FR
Paul Scherrer Institut (PSI) Paul Scherrer Institut (PSI)
Search
Paul Scherrer Institut (PSI) Paul Scherrer Institut (PSI)

Hauptnavigation

  • Labs & User ServicesOpen mainmenu item
    • Overview
    • Research at PSI
    • Research Divisions and Labs
    • Facilities and Instruments
    • Research Initiatives
    • PSI User Labs
    • Scientific Highlights
    • Scientific Events
    • Scientific Career
    • Useroffice
  • VisitorsOpen mainmenu item
    • Overview
    • Contact
    • How to find us
    • Public Events
    • Visitor Centre psi forum
    • Schülerlabor iLab
    • Center for Proton Therapy
  • IndustryOpen mainmenu item
    • Overview
    • Technology Transfer
    • Spin-off Companies
    • PARK innovAARE
  • Our ResearchOpen mainmenu item
    • Current topics from our research
    • Matter and Material
    • Human Health
    • Energy and Environment
    • Large Research Facilities
    • General Brochures
    • Films
    • Media Corner
  • Career & Further EducationOpen mainmenu item
    • Job Opportunities
    • Personnel Policy
    • Working at PSI
    • Training and Further Education
    • Vocational Training
    • PSI Education Centre
    • Support Program "PSI Career Return Program"
    • PSI-FELLOW/COFUND
  • About PSIOpen mainmenu item
    • PSI in brief
    • Strategy
    • Guiding principles
    • Facts and figures
    • Organisational structure
    • Suppliers and customers
    • Customers E-Billing
    • IT and Computing
    • Safety at PSI (in German)

You are here:

  1. PSI Home
  2. Labs & User Services
  3. NUM
  4. LMX
  5. Thin Films and Interfaces
  6. News & Highlights

Secondary navigation

Thin Films and Interfaces Group

  • About the TFI Group
    • Collaborations
    • Funding
  • People
    • Alumni
    • Visitors
  • Research
    • Thin Films - Methods
    • Plasma and Thin Film Analysis
    • Multiferroic Thin Films
    • Ion Conductors
    • Thin Film Materials for Catalysis
    • Laser Induced Forward Transfer
    • Concluded Projects
      • Li-Metal Oxides
      • Structuring
      • Photo-Interactions with Polymers
  • Instrumentation and Services
    • Instrumentation
      • Seifert Booking Page
    • Service for Industry
  • Seminars
    • Seminars 2018
    • Seminars 2017
    • Seminars 2016
    • Seminars 2015
    • Seminars 2014
    • Seminars 2013
    • Seminars 2012
    • Seminars 2011
    • Former Guest Speakers
  • Conferences
  • Teaching and Education
    • Micro- and Nanostructures
    • Inorganic Thin Films
    • Open Positions
  • News & Highlights Expanded submenu item
    • Highlights 2019
    • Highlights 2018
    • Highlights 2017
    • Highlights 2016
    • Highlights 2015
    • Highlights 2014
    • Highlights 2013
    • Highlights 2012
    • News
  • Publications
    • Papers
    • Books
    • PhD Theses
  • Useful links

  • Laboratory for Multiscale materials eXperiments
  • Laboratory for Neutron Scattering and Imaging
  • PSI Telefon Directory
  • Most Recent Publication

Scientific Highlights

Scientific Highlights

Datum
12 May 2017

Determination of Conduction and Valence Band Electronic Structure of LaTiOxNy Thin Films

The nitrogen substitution into the oxygen sites of several oxide materials leads to a reduction of the band gap to the visible-light energy range, which makes these oxynitride semiconductors potential photocatalysts for efficient solar water splitting. Oxynitrides typically show a different crystal structure compared to the pristine oxide material.

Read more
3 April 2017

LaTiOxNy thin film model systems for photocatalytic water splitting: physicochemical evolution of the solid-liquid interface and the role of the crystallographic orientation

The size of the band gap and the energy position of the band edges make several oxynitride semiconductors promising candidates for efficient hydrogen and oxygen production under solar light illumination. The intense research efforts dedicated to oxynitride materials have unveiled the majority of their most important properties. However, two crucial aspects have received much less attention.

Read more
20 March 2017

Tuning the multiferroic mechanisms of TbMnO3 by epitaxial strain

A current challenge in the field of magnetoelectric multiferroics is to identify systems that allow a controlled tuning of states displaying distinct magnetoelectric responses. Here we show that the multiferroic ground state of the archetypal multiferroic TbMnO3 is dramatically modified by epitaxial strain. Neutron diffraction reveals that in highly strained films the magnetic order changes from the bulk-like incommensurate bc-cycloidal structure to commensurate magnetic order.

Read more

Sidebar

Contact

Thin Films and Interfaces Group
Paul Scherrer Institut
5232 Villigen PSI
Switzerland
Homepage

Professor Dr. Dr. h.c. Thomas Lippert
Head of Group
OFLB/U110
tel: +41 56 310 4076
fax: +41 56 310 2688
thomas.lippert@psi.ch

Seminars

Thin Films and Interfaces Group Seminars
ENE Seminars
CMT seminar/journal club

Homepage NUM

Research with Neutrons and Muons NUM Division at PSI


PSI Scientific Reports

Archive 2006-2012. The Scientific Reports – containing accounts of research topics from all the different areas – provide an impression of the variety of subjects researched at PSI.


Open Positions

Job Opportunities at Research Division NUM.

top

Footer

Paul Scherrer Institut

Forschungsstrasse 111
5232 Villigen PSI
Switzerland
How to find us

Imprint
Terms and Conditions

Login

Telephone: +41 56 310 21 11
Telefax: +41 56 310 21 99
Contact form

Visitor Centre psi forum
School Lab iLab (in German)
Center for Proton Therapy

Follow us: Twitter (in English) LinkedIn Youtube Issuu RSS

Quicklinks

  • Phone Book/People Search
  • Digital User Office
  • Technology transfer
  • PSI Publications
  • Computing
  • Safety (in German)
  • Job Opportunities
  • Vocational Training (in German)
  • Suppliers
  • Customers E-Billing
  • PSI Guesthouse
  • PSI Gastronomie (in German)

For the media

  • Media Contact
  • Media Releases
  • Social Media Newsroom
  • Facts and Figures
  • PSI in brief
  • Films
  • DE
  • EN
  • FR