Julius Springer Prize for Applied Physics 2018 awarded to Guus Rijnders

​​​​​​​Dutch physicist is honored for his contributions to the field of interface engineering

Heidelberg | London, 24 April 2018

Guus Rijnders © Eric Brinkhorst Fotografie B.V.The 2018 Julius Springer Prize for Applied Physics will be awarded to Guus Rijnders of the University of Twente in the Netherlands for his research on pulsed laser deposition (PLD). The award, which includes a prize of US$5,000, will be presented at the Magnus-Haus in Berlin, Germany on 5 October 2018, and will be accompanied by a public lecture given by the winner.

Guus Rijnders investigates complex materials, particularly those used in electronic devices, such as brain-inspired electronics and sensors. He focuses on the structure-property relation of atomically engineered complex (nano)materials, especially thin-film ceramic oxides, which include ferromagnetic, ferroelectric as well as piezoelectric materials. Atomic control of such materials enables new functionalities, such as interface conductivity at oxide interfaces and multistate ferroelectrics. As one of the leaders in the field of PLD, and a driving force of interface engineering, Rijnders is one of the few major researchers who openly addresses controversial topics in the field. He has also successfully brought PLD from the laboratory to industry as the co-founder of two companies. 

The Julius Springer Prize for Applied Physics recognizes researchers who have made an outstanding and innovative contribution to the field of applied physics. It has been awarded annually since 1998 by the editors-in-chief of the Springer journals Applied Physics A – Materials Science & Processing and Applied Physics B – Lasers and Optics. Winners in previous years have included Roland Wiesendanger, Xiang Zhang and Viktor Malka. 

Rijnders said: “I am very pleased to accept this prize and feel honored to join the former recipients, who are all respected and excellent researchers. I see this prize as a recognition for our scientific and innovative contributions to the field of atomic controlled oxide thin film growth with pulsed laser deposition. I thank all my co-workers for their contributions.”

Further Information

Find out more about Guus Rijnders’ work in the following articles published in Applied Physics A–Materials Science & Processing
Pulsed-laser deposition of MgB2 and B thin films
Pulsed laser deposition of PZT/Pt composite thin films with high dielectric constants
Pulsed laser deposition: metal versus oxide ablation
Imposed layer-by-layer growth by pulsed laser interval deposition

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