Soft Matter in Mainz Uni Mainz Max-Planck-Institut für Polymerforschung Forschungsverbünde.

Slides:

Advertisements

Similar presentations

Multiscale Dynamics of Bio-Systems: Molecules to Continuum February 2005.

Advertisements

U g e l s t a d L a b o r a t o r y UGELSTAD LABORATORY - surface, colloid and polymer chemistry group ~35 persons Experimental group, modern instrumentation.

Jožef Stefan Institute THE WORLD OF SCIENCE AND TECHNOLOGY HeadquartersReactor centre.

Molecular Biomimetics Polypeptides to Inorganic structures.

SPINTRONIC NANOSENSORS for MEDICINE Prof. Riccardo Bertacco Centro LNESS Politecnico di Milano Via Anzani 42, Como

Nano Fabrication Nano Fabrication.

Nature provides us of many examples of self- assembled materials, from soft and flexible cell- membranes to hard sea shells. Such materials.

Overview and background

Opportunities in Soft Matter Research at NSLS II 1.Micro-SAXS experiments 2.X-ray Photon Correlation Spectroscopy 3.New Things with Coherence.

Chapter 01: Flows in micro-fluidic systems Xiangyu Hu Technical University of Munich.

Case Studies Class 5. Computational Chemistry Structure of molecules and their reactivities Two major areas –molecular mechanics –electronic structure.

Nanotechnology Program Focuses on -> design, fabricating and controlling materials, components and machinery with dimensions on the nanoscale (0.1 – 100.

Two Approaches to Multiphysics Modeling Sun, Yongqi FAU Erlangen-Nürnberg.

無機化學特論(四) 授課老師：林寬鋸教授

Building Capabilities in Radiation Sciences Simon M. Pimblott Dalton Cumbria Facility School of Chemistry, Univ. of Manchester.

Advancing electronics and photonics through interdisciplinary research.

What is there to do in physics and astronomy? SWAP Research Overview January 30, 2004 Catherine H. Crouch & David Cohen.

School on Surface Analytical Techniques April 2012 Scope: The primary objective of this workshop is a sustainable program centered on detailed.

An Introduction to Dip-Pen Nanolithography. What is DPN? Direct-write patterning technique based on AFM scanning probe technology Direct-write patterning.

VISUALISATION OF DOMAINS IN 2D MOLECULAR SYSTEMS BY BREWSTER ANGLE MICROSCOPE J. Cirák.

Physical chemistry of nanodispersed systems and polymer solutions.

NANOTECHNOLOGY FOR NUCLEAR NON-PROLIFERATION APPLICATIONS

By: Lea Versoza. Chemistry  A branch of physical science, is the study of the composition, properties and behavior of matter.  Is concerned with atoms.

Mechanical biosensors. Microcantilevers.Thermal sensors.

A Proposal for the Expansion of DPOLY Motivation: Increase the breadth of Divisional focus to include soft matter materials research that has overlap in.

Triglyceride crystallization model systems for polymer crystallization? melt Poly(propylene-co-1-pentene) for a better impact/stiffness.

Department of Chemistry A state-of-the-art instrumental park is available to purify and characterize the synthesized molecules The research activities.

Chapter 13.2 States of Matter, The nature of liquids

LECTURER (CHEMISTRY) GOVT.POLYTECHNIC INSTITUTE LAYYAH.

PROMOTING INNOVATION AND CREATIVITY April 8-10, Brdo Slovenia JADRAN LENARČIČ J. Stefan Institute, Ljubljana, Slovenia.

Polymer and Colloid Science Group People Research Activities Collaborations Output Funding Selected Presentations IESL:03/ 2006.

Gavin W Morley Department of Physics University of Warwick Diamond Science & Technology Centre for Doctoral Training, MSc course Module 2 – Properties.

Mohammed Al-anber, Bianca Milde, Wasim Alhalasah, Heinrich Lang, and Rudolf Holze Technische Universität Chemnitz, Institut für Chemie, AG Elektrochemie,

Earn your PhD in an Interdisciplinary Environment Your Way to International Excellence - Research at the MPGC [Logo Uni Mainz] [Logo MPIC] [Logo MPIP]

Materials World Network: The Materials Computation Center Outreach David M. Ceperley, University of Illinois at Urbana-Champaign, DMR This Travel.

Yee Lab Nanotechnology using Polymers Yee Lab Nanotechnology using Polymers.

Laboratory of Molecular Simulations of Nano- and Bio-Materials Venkat Ganesan “Where molecules and models meet applications” Computations Fluid Mechanics.

1 Investigative Tools--Theory, Modeling, and Simulation Rational You ITRI-IEK-NEMS 2001/08/06 Source: IWGN (1999/09)

The Nuts and Bolts of First-Principles Simulation Durham, 6th-13th December : Computational Materials Science: an Overview CASTEP Developers’ Group.

GLOBAL SUPRAMOLECULAR CHEMISTRY NETWORK (Unlimited...) Doc. Dr hab. Marek Pietraszkiewicz POLISH SUPRAMOLECULAR CHEMISTRY NETWORK.

THE UNIVERSITY OF AT AUSTIN Department of Chemical Engineering Institute for Computational Engineering & Sciences Texas Materials Institute Institute for.

Mohraz Lab Colloid Science and Complex Fluids Engineering Mohraz Lab Colloid.

Unresolved experimental dilemmas Dissipative particle dynamics Theoretical challenges (NATO ASI) Constitutive relations – applications to complex flows.

Institute of Physics Founded : 1993 Goals : –fundamental research in physics –graduate study Faculty: 11 Post doctors: 10 Assistant: 4 Students: Master.

Intermolecular Forces of Attraction AP Chemistry 2 SNSH Spring 2000.

1 Welcome to the World of Chemistry Organic Chemistry >Organic is the study of matter that contains carbon. >Organic chemists study the structure,

DNA mechanics in a tight squeeze Confinement of biopolymers changes their response to a mechanical force. We have derived an exact formula for the force-extension.

Dynamics theory and experiment 1. Atomic motion and energy flow in the reacting molecules. 2. Atomic motion and energy flow in the reacting surface/substrate.

Campus Curricula Committee Report 18 February 2016 l CCC Meetings »2 February 2016 »1 March 2016 (upcoming) l Committee Activity »5 Degree change requests.

Department of Applied Chemistry Web Site:

Class Meetings: TTH 11:00-12:30P, ETC Instructor: Prof. Li Shi,

Multifunctional Membranes for Advanced Separations

Physical Chemistry/Theoretical Chemistry

Mark Swihart Executive Director New York State Center of Excellence in Materials Informatics.

From pH- to Light-Response:

Organic nanoparticles Inorganic nanoparticles

Ionic and Metallic Bonding

Permeability of gases in glassy polymers by computer simulation

Fluid membranes From biology to physics and back again

International Max Planck Research School Functional Interfaces in Physics and Chemistry Block course on Fundamentals and concepts to study solids, interfaces.

عنوان: مواد نانومتخلخل (1)

Science Fair Categories

Materials Computation Center, University of Illinois

Department of Chemical Engineering

Center for Environmentally Beneficial Catalysis: Overview

Jan Genzer (Department of Chemical & Biomolecular Engineering)

化工学院第七届国际交流月系列讲座邀请人：王文俊化学工程与生物工程学院化学工程联合国家重点实验室（浙江大学）

Genzer Research Group How does substrate geometry affect the surface-initiated controlled polymerization? Jan Genzer (Department.

Pietro Ballone Physics Department, NTNU, Trondheim, and

A Computational Study of the Solvation Chemistry of Zr4+ Cation

Presentation transcript:

Soft Matter in Mainz Uni Mainz Max-Planck-Institut für Polymerforschung Forschungsverbünde

Uni Mainz

Gruppe Prof. Binder W. Paul Simulationen, Polymere T. Schilling Simulationen, Colloide, LC J. Schneider Simulationstechniken M. Oettel Kolloide an Grenzflächen P. Virnau M. Weigel Zufällige Unordnung, frustierte Systeme

Gruppe Prof. Palberg HaJo Schoepe Transport properties of colloidal suspensions Dry Colloidal Mono- and Multilayer Systems Colloidal crystallisation kinetics Colloidal glass transition Sheared colloids in confined geometry

Gruppe Prof. Schmidt Molecular boxes and molecular reactors Cylindrical brushes Molecular ion channels and metallic nanowires Polyelectrolytes

Group Prof. Janshoff Vesicles Membranes Nanomechanics Raster-Proben-Methoden Polymers Biosensors

Weitere Gruppen in der Physikalischen Chemie Jochen Gutmann (auch MPIP) Hybrid-Materialen Micheal Maskos Polymere Nanopartikel Wolfgang Schärtl Reaktive Nanopartikel Carsten Sönnichsen Metallische Nanopartikel

Arbeitsgruppen in der Organischen Chemie Prof. Holger Frey Hyperverzweigte Polymere Prof. Rudolf Zentel Flüssigkristalline Polymere Künstliche Opale Biokompatibilität

Max-Planck-Institut für Polymerforschung

Struktur des MPIP 6 Direktoren Physik der Polymere (Prof. Butt) Materialforschung (Prof. Knoll) Theorie der Polymere (Prof. Kremer) Synthetische Chemie (Prof. Müllen) Polymer Spektroskopie (Prof. Spiess) Miniemulsionen (Prof. Landfester) Ca. 350 – 400 Wissenschaftler

Physik der Polymere (Prof. Butt) Microdrops and Microfluidics Surface Forces Colloids and Granular matter Micro- and Nanostructuring of polymer surfaces Scanning probe microscopy Hybrid Nanomaterials Microcantilever sensors Structure and Dynamics of Polymers Surface modification Gruppenleiter: G.K. Auernhammer R. Berger E. Bonaccurso K. Graf J. Gutmann M. Kappl K. Koynov S. Rathgeber D. Vollmer

Theorie der Polymere (Prof. Kremer) Macroscopic Theory Polyelectrolytes Computational Chemistry Analytical Theory Multiscale Modelling Molecular Electronics Gruppenleiter: D. Andrienko L. Delle Site B. Düweg C. Holm H. Pleiner N. van der Vegt T. Vilgis

Polymer-Spektroskopie (Prof. Spiess) NMR of Polymers and Soft Matter NMR of Organic and Inorganic Solids EPR on Soft Matter Ab Initio Calculations Hyperpolarised Gases, MRI Gruppenleiter: G. Brunklaus R. Graf D. Hindernberger A.Koch K. Münnemann D. Sebastiani

Weitere Abteilungen am MPIP Materialforschung (Prof. Knoll) Synthetische Chemie (Prof. Müllen) Prof. Landfester

Forschungs- verbünde

Transregio Sonderforschungsbereich TR6 Physics of Colloidal Dispersions in External Fields Sonderforschungsbereich 625 Von einzelnen Molekülen zu nanoskopisch strukturierten Materialien GRADUATE SCHOOL OF EXCELLENCE MAterials Science IN MainZ Graduate class of excellence "Polymers in Advanced Technologies" POLYMAT (Uni Mainz und MPIP) European Network of Excellence SoftComp (theoretical and experimental physics, computer simulation, chemistry and applied biology. )