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Frank GLAS | Materials
Frank GLAS | Materials

In situ and real-time observation of nanocrystal growth in « NanoMAX », a modified ETEM - Laboratoire de Physique des Interfaces et des Couches Minces
In situ and real-time observation of nanocrystal growth in « NanoMAX », a modified ETEM - Laboratoire de Physique des Interfaces et des Couches Minces

C2N – Department of Materials
C2N – Department of Materials

Applied Sciences | Free Full-Text | GaN/Ga2O3 Core/Shell Nanowires Growth: Towards High Response Gas Sensors | HTML
Applied Sciences | Free Full-Text | GaN/Ga2O3 Core/Shell Nanowires Growth: Towards High Response Gas Sensors | HTML

C2N – Research Activities
C2N – Research Activities

Statistics of Nucleation and Growth of Single Monolayers in Nanowires: Towards a Deterministic Regime - Glas - - physica status solidi (RRL) – Rapid Research Letters - Wiley Online Library
Statistics of Nucleation and Growth of Single Monolayers in Nanowires: Towards a Deterministic Regime - Glas - - physica status solidi (RRL) – Rapid Research Letters - Wiley Online Library

C2N – Frank Glas
C2N – Frank Glas

INDEED Network - Fellow Projects
INDEED Network - Fellow Projects

Federico Panciera
Federico Panciera

C2N – Frank Glas
C2N – Frank Glas

Prof Frank GLAS - YouTube
Prof Frank GLAS - YouTube

C2N – Research Activities
C2N – Research Activities

Federico Panciera
Federico Panciera

Frank GLAS | Materials
Frank GLAS | Materials

Frank GLAS | Materials
Frank GLAS | Materials

C2N – SCOP
C2N – SCOP

INDEED Network - Fellow Projects
INDEED Network - Fellow Projects

Frank GLAS | Materials
Frank GLAS | Materials

Phys. Rev. Lett. 121, 166101 (2018) - Atomic Step Flow on a Nanofacet
Phys. Rev. Lett. 121, 166101 (2018) - Atomic Step Flow on a Nanofacet

C2N – Research Activities
C2N – Research Activities

Process Plant Design - SPIN
Process Plant Design - SPIN

C2N – Research Activities
C2N – Research Activities

Stable and high yield growth of GaP and In 0.2 Ga 0.8 As nanowire arrays using In as a catalyst - Nanoscale (RSC Publishing) DOI:10.1039/D0NR04139D
Stable and high yield growth of GaP and In 0.2 Ga 0.8 As nanowire arrays using In as a catalyst - Nanoscale (RSC Publishing) DOI:10.1039/D0NR04139D