Logo CEA
Recherche
Soft Complex Matter

Soft Complex Matter

In the field of soft matter, many complex new systems are flourishing. The emergence of these newfound capabilities, many of which marry different technologies and components, and work at the nanometer scale (1-100 nm) has become a major current trend. At LLB, research has progressed in similar directions, though some of the historical specificities of the lab, such as polymer research, are kept as main components.

With the advantages of neutron scattering in mind (i.e., labeling and contrast matching), we often marry the reciprocal space (SANS and SAXS) with other techniques, either in real space or at macroscopic scales. The following topics are presently developed: nanoparticles and hybrid systems; organic systems and self-organization; polymer dynamics; and electrostatic complexes. We will consider multicomponent systems that involve polymers, while differentiating between:

  1. systems where one of the components is intrinsically nanosized (e.g., nanoparticles or nanopores), and the relevant structure and dynamics can be kept at a comparable size, depending on its interactions with the polymer;
  2. systems where the architecture of the basic elements is bound to lead to self -organization at the nano- or micro-scale.
Presentation of the “Soft Matter and Biophysics” axis (Sept 2011).

Alain MENELLE

Template part has been deleted or is unavailable: elements/documents-associes

Membres

Projets

  • ANR ATTOCOM project (English)

    ANR ATTOCOM project (English)

    HHG in semiconductor crystals High-order laser harmonic generation (HHG) in semiconductor crystals is a new source of short wavelength, ultrashort duration (femtosecond to attosecond) pulses at very high rates, enabling us to track ultrafast electronic dynamics in complex materials. Compared with HHG in gases, solid-state sources promise more advanced control and greater versatility of this…

  • ANR LabCom 2018 – DESIR

    ANR LabCom 2018 – DESIR

    Efficient and sensitive detection of reaction intermediates via NMR The ability to control chemical reactions by simultaneously monitoring in real time and under real conditions the concentration of…

  • ANR NANOLITE project

    ANR NANOLITE project

    Laser platform for EUVmetrology Created in January 2020, the NANOLITE joint laboratory, funded by the French National Research Agency (ANR) and bringing together CEA and the company Imagine Optic, is developing original solutions for optical metrology at short wavelengths. The aim of the NanoLite joint laboratory is to bring together an academic laboratory with expertise…

  • ANR TOCYDYS

    ANR TOCYDYS

    Dynamique du solide au cycle optique – TOCYDYS

  • ANR-MAGWAT

    Innovative energy storage based on magnesium and aqueous electrolytes Aqueous solutions play a key role in biology, chemistry and, more particularly, in energy-related fields such as photo and electro-catalysis and batteries. Whereas aqueous batteries are supposed to be constrained by the thermodynamic electrochemical stability window of water (1.23 V vs. NHE under standard conditions in…

  • CHEM-Switch

    CHEM-Switch

    « Back to the Group page« Back to the Contracts page Project overview The fundamental property of ferroelectric (FE) materials is their electrically switchable spontaneous polarization below the…

  • CLOE

    CLOE

    Laser Crystals for Extreme Optics Presentation COORDINATOR: G. Mennerat PARTNERS: CEA Paris Saclay – Cristal Laser CEA Paris-Saclay and Cristal Laser have set up a platform bringing together original characterization instruments to refine understanding of aging phenomena in non-linear and electro-optical optical crystals, and improve the lifetime and performance of finished products. METHODOLOGY AND RESULTS…

  • eSCALED

    eSCALED

    Le changement climatique résultant de l’accumulation de dioxyde de carbone anthropique dans l’atmosphère et l’incertitude quant à la quantité de réserves de combustibles fossiles récupérables…

  • European “KET- Maritime” project

    European “KET- Maritime” project

    Au sein d’IRAMIS, le CIMAP, fortement implanté en Normandie, est partenaire du projet européen “Key Enabling Technologies” (KET) lancé au printemps 2018. Ce projet inter-régional de l’Espace…

  • Exploratory PEPR DIADEM- FASTNANO

    Exploratory PEPR DIADEM- FASTNANO

    IRAMIS/NIMBE is coordinating one of the projects, FastNano, which aims to target and strengthen research into 0, 1 and 2D nano-objects that can be used for innovative applications in the fields of renewable energies (materials for all-solid-state batteries, electro- and photo-catalysis, photovoltaics…), healthcare (biological marking, nanomedicine, diagnostics…) and electronics (MIM- Metal-Isolant-Metal diodes, optoelectronics…) The aim…

  • For WATER Quality Monitoring – 4WATER

    For WATER Quality Monitoring – 4WATER

    ANR project: For WATER Quality Monitoring – 4WATER The water crisis is the #1 global risk based on impact to society as announced by the World Economic Forum in January 2015 [1]. Indeed, groundwater…

  • GMT-Modeling and Theory Group

    GMT-Modeling and Theory Group

    Our research fields Nano, meso, transport, 2D, nanomagnetism Methods DFT, Tight-Binding, NEGF .. Projects Join GMT Internship, PhD, post-doc, open positions. News Agenda Recent publications Find out about our researchers’ scientific publications.

  • ICT 3εFERRO – H2020

    ICT 3εFERRO – H2020

    The objective of the European 3εFERRO project is to design and develop new non-volatile ferroelectric memories, which state can be changed by applying a simple electric field, and directly integrated into CMOS logic circuits, and thus compatible with the silicon technology. Such memories must allow the development of new devices and to drastically reduce the…

  • IMAGINE Project

    IMAGINE Project

    Globally large efforts are dedicated to improve the sensitivity of NMR mainly via two complementary approaches: (i) increasing nuclear polarization by ever-increasing magnetic fields or more…

Domaines Techniques

Emplois

Tout
CDI
CDD
Alternance
Post-Doctorat
Stage

Thèses

Actuellement aucune thèse disponible pour :

Thèmes de recherche

  • Active Matter

    Active Matter

    Our work on active matter remains at the edge of the still rapid evolution of the field. Our main lines of research were: i) building and analysis of minimal models and theories describing the generic and universal physics of active systems, i.e., quantitative and qualitative properties that are independent of system-details; ii) model building for…

  • Advanced Synthesis

    LEEL’s FSP burner operating for Al2O3 nanoparticles synthesis : left pilot flame, middle pure ethanol spray, right synthesis flame with Al nitrate/ethanol spray.

  • Biologie et santé / Biology and health @ NIMBE

    Biologie et santé / Biology and health @ NIMBE

    Plusieurs laboratoires du NIMBE ont une activité de recherche en lien avec la biologie ou la santé : Le LICSEN développe des technologies innovantes permettant d’obtenir des surfaces et…

  • Characterization of materials for energy

    Characterization of materials for energy

    Les différentes filières énergétiques, telles que l’énergie nucléaire ou encore les nouvelles technologies autour de l’hydrogène, vecteur énergétique, ou le photovoltaïque, demandent des matériaux…

  • CLOE

    CLOE

    Laser Crystals for Extreme Optics Presentation COORDINATOR: G. Mennerat PARTNERS: CEA Paris Saclay – Cristal Laser CEA Paris-Saclay and Cristal Laser have set up a platform bringing together original characterization instruments to refine understanding of aging phenomena in non-linear and electro-optical optical crystals, and improve the lifetime and performance of finished products. METHODOLOGY AND RESULTS…

  • Condensed matter physics and chemistry

    Condensed matter physics and chemistry

    Physics and chemistry, in all their aspects, are the two disciplines at the heart of IRAMIS’ activities. These disciplines are broken down into the following research themes: IRAMIS’s large-scale facilities, such as the LLB’s diffusion and diffraction spectrometers and neutron imaging stations, or the LSI’s SIRIUS gas pedal, are particularly well suited to the study…

  • Disordered solids: glasses around Tg or Pg

    Disordered solids: glasses around Tg or Pg

    Glasses are everywhere in our daily life, from ordinary windowpanes to granular materials. What unifies them is their elusive nature: they are not crystalline solids, yet they hardly flow. Whether they are merely hyper-viscous liquids or form an intrinsic state of matter largely remain open issue. To shed light on this fundamental question, we have…

  • Économie circulaire – environnement @ NIMBE

    Économie circulaire – environnement @ NIMBE

    Plusieurs thématiques de recherche du NIMBE concourent à mieux contrôler notre environnement (analyse, méthodes) et assurer la meilleure gestion possible de nos déchets : Recyclage (LICSEN) La…

  • Electronic structure and atomistic modelisation

    Electronic structure and atomistic modelisation

    Several IRAMIS teams are involved in calculations of the electronic structure (ab-initio , tight binding, Hückel methods, etc…) and more generally in the modeling of matter at the atomic scale,…

  • Electrons, ions, neutrons for the exploration and transformation of matter

    Electrons, ions, neutrons for the exploration and transformation of matter

    Irradiation of materials usually leads to the formation of defects, which need to be identified in order to assess the radiation resistance of materials. Irradiation can also be used to shape materials for a wide range of technological applications. Finally, radiation studies can also be used to simulate the accelerated ageing of nuclear materials, ceramics…

  • Failure of disordered solids

    Disordered solids are everywhere in our daily life, from ordinary windowpanes to granular materials. They play such a significant role that the United Nations declared 2022 to be the International Year of the Glass (IYOG2022).  Understanding how disordered solids break is also a major focus in our group. The complexity here stems from the multi-scale…

  • Fermio-bosonic protected Qubit

    Fermio-bosonic protected Qubit

    To enhance the resilience of superconducting circuits against environmental noise, we are focusing on the quest of robust protected qubits. We want to make use of the fermionic degree of freedom of the Andreev states that have long been overlooked in Josephson circuits. Up to now, we have explored Andreev physics in superconducting weak links…

  • Fundamental questions on quantum circuits

    Fundamental questions on quantum circuits

    Topology We plan to adress the following questions: Strong coupling / dissipation Regarding the effects of dissipation, despite our experiment on the Schmid transition Ref. 4, there is still controversy, both among experimentalists and theorists, on how a resistor affects transport through a Josephson junction. With our recent theoretical work Ref. 5, and designing new…

  • Ion Beam Analysis

    Ion Beam Analysis

    The nuclear microprobe is a non-destructive analysis tool allowing elemental characterization at the micrometer scale of solid samples of diverse origins: interfaces and grains of synthesized materials, cellular monolayers, inclusions in terrestrial and extraterrestrial geologic samples. The method relies on the detection and spectrometry of emitted radiations by the interaction of a light ion micro-beam…

  • Laser-matter interaction

    Laser-matter interaction

    IRAMIS’s research activities on laser-matter interaction concern both physical and chemical matters. Research programs range from simple atomic and molecular systems, to complex molecular and..

Publications