Self-replicating Colloidal Assemblies

Self‐Assembly Behavior of Oppositely Charged Inverse Bipatchy Microcolloids

Autores: Fatemeh Naderi Mehr, Dmitry Grigoriev, Rebecca Heaton, Joshua Baptiste, Anthony J. Stace, Nikolay Puretskiy, Elena Besley, Alexander Böker
Publicado en: Small, Edición 16/14, 2020, Página(s) 2000442, ISSN 1613-6810
Editor: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.202000442

From 2D to 3D patches on multifunctional particles: how microcontact printing creates a new dimension of functionality

Autores: Marc Zimmermann, Daniela John, Dmitry Grigoriev, Nikolay Puretskiy, Alexander Böker
Publicado en: Soft Matter, Edición 14/12, 2018, Página(s) 2301-2309, ISSN 1744-683X
Editor: Royal Society of Chemistry
DOI: 10.1039/c8sm00163d

Generation of 3-dimensional multi-patches on silica particles via printing with wrinkled stamps

Autores: D. John, M. Zimmermann, A. Böker
Publicado en: Soft Matter, Edición 14/16, 2018, Página(s) 3057-3062, ISSN 1744-683X
Editor: Royal Society of Chemistry
DOI: 10.1039/c8sm00224j

Characteristics of microcontact printing with polyelectrolyte ink for the precise preparation of patches on silica particles

Autores: Marc Zimmermann, Dmitry Grigoriev, Nikolay Puretskiy, Alexander Böker
Publicado en: RSC Advances, Edición 8/69, 2018, Página(s) 39241-39247, ISSN 2046-2069
Editor: Royal Society of Chemistry
DOI: 10.1039/c8ra07955b

Mono-patchy zwitterionic microcolloids as building blocks for pH-controlled self-assembly

Autores: Fatemeh Naderi Mehr, Dmitry Grigoriev, Nikolay Puretskiy, Alexander Böker
Publicado en: Soft Matter, Edición 15/11, 2019, Página(s) 2430-2438, ISSN 1744-683X
Editor: Royal Society of Chemistry
DOI: 10.1039/c8sm02151a

Tailoring patches on particles: a modified microcontact printing routine using polymer-functionalised stamps

Autores: Marcel Sperling, Martin Reifarth, Richard Grobe, Alexander Böker
Publicado en: Chemical Communications, Edición 55/68, 2019, Página(s) 10104-10107, ISSN 1359-7345
Editor: Royal Society of Chemistry
DOI: 10.1039/c9cc03903a

Shaping Metallic Nanolattices: Design by Microcontact Printing from Wrinkled Stamps

Autores: Xuepu Wang, Marcel Sperling, Martin Reifarth, Alexander Böker
Publicado en: Small, Edición 16/11, 2020, Página(s) 1906721, ISSN 1613-6810
Editor: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.201906721

Multifunctional PatchySilica Particles via Micro Contact Printing

Autores: Marc Zimmermann, Dmitry Grigoriev, Nikolay Puretskiy and Alexander Böker
Publicado en: 2018
Editor: Max Planck Institute for Polymer Research

Multifunctional Patchy Silica Particles via MicroContact Printing

Autores: Marc Zimmermann, Dmitry Grigoriev, Nikolay Puretskiy and Alexander Böker
Publicado en: 2017
Editor: Technical University of Munich

Two-dimensionally ordered AuNP arrays via microcontact printing on lamellar diblock copolymer films

Autores: Alexander Böker, Tom Wagner, Meirav Oded, Roy Shenhar
Publicado en: 2016
Editor: University of Potsdam

Multifunctional patchy silica particles via_Micro Contact printing

Autores: Marc Zimmermann, Daniela John, and Alexander Böker
Publicado en: 2016
Editor: Freie Universität Berlin, Germany

Creation of submicron patterns by using microcontact printing for plasmonic templates

Autores: Xuepu Wang, Nikolay Puretskiy, and Alexander Böker
Publicado en: 2018
Editor: Max Planck Institute for Polymer Research

Polymer-Funktionalisierung von nanoskopischen und makroskopischen Bausteinen: Von Membranen zu Selbstreplikation

Autores: Alexander Böker
Publicado en: 2017
Editor: University of Bayreuth

Functional polymer patchy microparticles

Autores: Fatemeh Naderi Mehr, Nikolay Puretskiy, Dmitry Grigoriev and Alexander Böker
Publicado en: 2016
Editor: University of Potsdam

Multifunctional Patchy Silica Particles via Micro Contact Printing

Autores: Marc Zimmermann, Daniela John, and Alexander Böker
Publicado en: 2016
Editor: University of Potsdam

Multifunctional Patchy Silica Particles via Micro Contact Printing (Poster)

Autores: Marc Zimmermann, Dmitry Grigoriev, Nikolay Puretskiy and Alexander Böker
Publicado en: 2017
Editor: Saarland University

Multifunctional Patchy Silica Particles via Microcontact Printing

Autores: M. Zimmermann, A. Böker
Publicado en: 2018
Editor: Volkswagen Foundation

Photoresponsive Materials Self-Assembled from Anisotropic Microparticles

Autores: A. Böker
Publicado en: 2018
Editor: Volkswagen Foundation

Zwitterionic patchy polymer microparticles for a controlled self-assembly

Autores: F. Naderi Mehr, D. Grigoriev, N. Puretskiy, A. Boker
Publicado en: 2019
Editor: American Chemical Society

Programmable soft matter: From active membranes to self-replication

Autores: A. Böker
Publicado en: 2019
Editor: American Chemical Society

Incorporation of Biological Functions into Polymer Materials: The Use of Protein-Polymer-Conjugates

Autores: A. Böker, H. Charan, U. Glebe, S. Reinicke
Publicado en: 2018
Editor: American Chemical Society

Functional patchy microcolloids for electrostatically directed self-assembly

Autores: F. N. Mehr, D. Grigoriev, N. Puretskiy and A. Böker,
Publicado en: 2019
Editor: The Leibniz Institute of Polymer Research Dresden (IPF)

Polymer-mediated microcontact printing: A method to fabricate patchy particles using low molecular-weight compounds as ink

Autores: M. Reifarth, M. Sperling, R. Grobe, P. Akarsu, and A. Böker
Publicado en: 2019
Editor: The Leibniz Institute of Polymer Research Dresden (IPF)

Microcontact Printing of Patchy Silica Particles using the LUMiFrac

Autores: M. Zimmermann, D. Grigoriev, A. Böker
Publicado en: 2019
Editor: LUM GmbH c/o Dispersion Letters

Incorporation of Biological Functions in Polymer Materials: The Use of Protein-Polymer-Conjugates

Autores: A. Böker
Publicado en: 2018
Editor: GDCh

Incorporation of Biological Functions into Polymer Materials: The Use of Sugar- or Protein-Polymer Conjugates

Autores: A. Böker
Publicado en: 2018
Editor: GDCh, MPI-P

Imparting Biological Functions to Artificial Materials: From Active Membranes to Self-Replication

Autores: A. Böker
Publicado en: 2019
Editor: Yamagata University

Imparting Biological Functions to Artificial Materials: From Active Membranes to SelfReplication

Autores: A. Böker
Publicado en: 2019
Editor: University of Freiburg

Programmierbare Materialien: Von aktiven Membranen zu kolloidaler Selbstreplikation

Autores: A. Böker
Publicado en: 2019
Editor: Deutsche Gesellschaft für Materialkunde e.V.

Imparting Biological Functions to Artificial Materials: From Active Membranes to Self-Replications

Autores: A. Böker
Publicado en: 2019
Editor: MRS USA

Programmable Soft Matter: From Active Membrane to Self-Replication

Autores: A. Böker
Publicado en: 2019
Editor: Dutch Research Council

Generation of anisotropic colloids via templated-assisted assembly and contact printing

Autores: Daniela John
Publicado en: 2017
Editor: University Potsdam

Multifunctional patchy silica particles via microcontact printing

Autores: M. Zimmermann, November 2018,
Publicado en: 2019
Editor: University of Potsdam

Preparation and self-assembly behavior of anisotropic polymer patchy particles

Autores: F. N. Mehr
Publicado en: 2019
Editor: University of Potsdam