the Vogel lab

Single-core double emulsions made easy!

Acoustic Crystallization of Two-dimensional Colloidal Crystals

Research from the Vogel lab: Chiral Surface Lattice Resonances – Eric at NanoGe 2021

Research from the Vogel lab: Flash Poster Presentation London Plasmonics 2020 - Eric Goerlitzer

Polymer Science and Processing 13: Polymer processing II

Polymer Science and Processing 12: Polymer processing I

Polymer Science and Processing 11: Polymer nanoparticles

Polymer Science and Processing 10: Elastomers and Semi-crystalline polymers

Polymer Science and Processing 09: Amorphous polymers

Polymer Science and Processing 07: polymers in solution

Polymer Science and Processing 06: Special polymer architectures

Polymer Science and Processing 05: other polymerization techniques

Polymer Science and Processing 04: Free radical polymerization

Polymer Science and Processing 03: Non-linear step growth polymerization

Polymer Science and Processing 02: Step growth polymerization

Polymer Science and Processing 01: Introduction

Bioinspired design - Forschung in der Vogel-Gruppe

Grenzflächen in der Verfahrenstechnik 14 - kolloidale Systeme

Optical Properties of Nanomaterials 12: Thin films

Grenzflächen in der Verfahrenstechnik 13 - Makroskopische Wechselwirkungen und Adhäsion II

Optical Properties of Nanomaterials 10: Semiconducting nanoparticles

Optical Properties of Nanomaterials 11: Semiconducting nanoparticles II

Grenzflächen in der Verfahrenstechnik 12 - Makroskopische Wechselwirkungen und Adhäsion I

Optical Properties of Nanomaterials 09: Applications of metal nanoparticles

Optical Properties of Nanomaterials 08: Metal nanoparticles

Grenzflächen in der Verfahrenstechnik 11 - Molekulare Wechselwirkungen 2: van-der-Waals WW

Optical Properties of Nanomaterials 07: Drude Model of the dielectric function

Grenzflächen in der Verfahrenstechnik 10 - Molekulare Wechselwirkungen 1: Ionische WW

Optical Properties of Nanomaterials 06: Mie theory and applications of dielectric particles