|
A |
|
Oxide materials for
energy harvesting: In-silico
study coupled with experiment
|
|
|
Scientists of
different communities exploring
the new possibilities for energy
materials through their
investigations, especially on
the oxide based materials.
Hence, there should be a
symposium dedicated to the
connection between theory and
experiments of energy materials
in E-MRS for a new flavor.
|
|
B |
|
Organized
nanostructures and
nano-objects: fabrication,
characterization and
applications |
|
|
The symposium covers
all the scientific and
technological aspects related to
the synthesis of semiconductor
or metallic nanodots and
nanowires, with special emphasis
on the multiscale organization
and auto-organization of these
nano-objects in ordered
structures, in view of their
future integration in functional
devices. |
|
C |
|
Inorganic
nanoarchitectonics : from
design and fabrication to
sustainable solutions
|
|
|
Nanoarchitectonics is
a novel paradigm in
nanotechnology aimed at designed
assembling of nanoscaled
structural units and elaborating
strategies for achieving a
versatile functionality through
their controlled assemblies into
higher dimensions. In these
perspectives, inorganic
nanoarchitectonics can trigger
innovation and give sustainable
solutions in nanocatalysis,
nanoelectronics, nanomedicine,
light-energy conversion and not
only. |
|
D |
|
Transparent
Conducting Oxides and Related
Materials |
|
|
Transparent conducting
oxides and related materials are
at the forefront of contemporary
materials science with emerging
novel materials and experimental
and computational methods. The
key challenge is to unravel the
detailed microscopic structure -
property relationships to be
exploited targeting the lowest
resistivity and highest
transparency. |
|
E |
|
Bio-nanomaterials and
regenerative medicine
|
|
|
The symposium
"Bio-nanomaterials and
regenerative medicine" focuses
on the design, characterization
and modelling of bio-inspired
nanomaterials |
|
F |
|
Superconductivity in
low dimensional systems
|
|
|
Symposium focuses on
the understanding of various
novel aspects of
superconductivity observed in
low-dimensional systems, which
differ from superconductivity in
bulk materials. The issues such
as design of low-dimensional
structures, physical
characterization, theories and
the potential applications in
novel devices will be discussed.
|
|
G |
|
Materials,
processing, and
characterization techniques
for future nuclear
technologies |
|
|
The development of new
and more efficient nuclear
reactors working at higher
temperatures than the present
ones will require materials that
could withstand high irradiation
doses/high temperatures without
compromising their properties.
During special events some parts
of the reactor could be exposed
to much higher
temperatures/radiation doses
than anticipated. [...] |
|
H |
|
Local probing
techniques and in-situ
measurements of energy storage
and conversion materials
|
|
|
Micro- and nanoscale
properties of materials and
interfaces are crucial for the
operation and the stability of
efficient energy conversion and
storage devices. Appropriate
local and in-situ
characterization techniques and
their combinations as well as
physical models are required and
will be disseminated and
discussed in the symposium.
|
|
I |
|
Magnetooptically
active nanoparticles
|
|
|
The meeting will cover
material issues and growth
methods of magnetic quantum dots
focusing on self-assembled
quantum dots as well as
colloidal dots consisting of
magnetically active materials.
Other type of nanostructures
(e.g., nanorods) are within the
scope of interest Physical
properties (optical in
particular) of such dots will be
discussed. |
|
J |
|
Alternative
semiconductor integration in
Si microelectronics
|
|
|
The symposium is a
follow-up of the very successful
symposium A organized at the
E-MRS Fall Meeting 2013. It is
devoted to highlight
breakthroughs in the field of
alternative semiconductor
integration on the mature
Silicon technology platform.
This research area paves the way
towards high performing (More
Moore) and / or highly
functionalized (More than Moore)
Silicon-based microelectronics
technologies that will address
challenges in modern societies.
|
|
K |
|
Computer modelling in
nanoscience and
nanotechnology: an
atomic-scale perspective III
|
|
|
The main purpose of
this symposium series is to
provide the European material
science community (and
especially the East and
South-East Europe) with a
systematic, broad overview of
advances, challenges and
accomplishment in the area of
computational material science
at the atomic scale. |
|
L |
|
Copper- and Zinc
Oxide Based Materials for
Sustainable Energy
Technologies |
|
|
Energy conversion
technologies, especially
photovoltaics, exhibit enormous
growth aiming to extremely high
power capacities per year.
Therefore, nontoxicity and
abundance of the materials in
the earth are among the key
requirements to energy
conversion technologies. [...]
|
|
M |
|
Functional textiles-
from research and development
to innovations and industrial
uptake |
|
|
Functional textiles
are one of the most important
fields in textile industry and
textile materials science. They
include breathable, heat and
cold resistant materials, ultra
strong fabrics (e.g. as
reinforcement for composites),
new flame retardant fabrics
(e.g. intumescent materials),
optimisation of textile fabrics
for acoustic properties.
|
|
N |
|
Crystallography in
materials science: Novel
methods for novel materials
|
|
|
Crystal structure is
one of principal factors
determining the material
properties. X-ray, neutron and
electron diffraction methods of
crystal and defect structure
investigation continuously
developing, leading to new
opportunities in materials
investigation. The symposium
will be a forum of presentation
of such methods and their
applications. |
|
O |
|
Recent progress in
new high-Tc superconductors
and related multifunctional
and magnetic materials
|
|
|
The ongoing
discoveries of new
superconductors and other
multifunctional materials do not
only challenge to explore their
microscopic mechanisms but also
open new fields of applications.
Since both, mechanism and
applications, go hand in hand,
we aim to assemble an experts of
both fields to exchange news and
stimulate discussions and
teamwork. |
|
P |
|
Advances on
functional doped glasses:
technologies, properties and
applications |
|
|
Doped glasses exhibit
unique properties for a wide
range of applications, ranging
from optoelectronics and
photonics to systems for energy
and environment. The production
and the characterization of
these materials are key factors
for the design of new devices
contributing to the advancement
of material science and
technology. |
|
Q |
|
Terahertz and
infrared optoelectronics: from
materials to devices
|
|
|
Detection of far-IR
and THz radiation is resistant
to the commonly employed
techniques as the use of
detectors and sources is
hampered by different reasons.
Especially in THz range the
quanta energy is substantially
smaller the thermal energy at
room and even at liquid nitrogen
temperature. Thus realization of
THz emitters and receivers is a
challenge to classical devices.
|
|
R |
|
Bioceramics for Bone
and Joint Repair |
|
|
The objective is to
review the state of the art in
the processing, characterization
and clinical application of
bioceramics (from inert ceramics
for orthopedic or dental
implants to bioactive ceramics
to support tissue engineering).
The symposium will be a forum
for academy and industry to
highlight common issues and
point future research
directions. |
|
S |
|
Composite materials
and structures: from research
and practical demands to
application |
|
|
Intensive development
of the most engineering branches
from micro- and nanoelectronic
and nanobiomedicine till
aeronautics, automobile
industry, shipping building and
space devices accompanied by
formulating of new demands to
the wide class of composite
materials and structures based
on the metals and alloys, oxide
and nonoxide ceramics, polymers
and filled by micro and
nanoparticles and fibers. The
aim of symposium is the
discussion of main challenges of
advanced composite materials
with special emphasis on the
novel areas of their practical
using. |
|
T |
|
Topological materials
II |
|
|
Topological materials
constitute a class of quantum
materials exhibiting new
electronic functionalities based
on specific electronic
properties of 3D and 2D
topological insulator crystals:
topological protection from
electron backscattering, surface
spin polarization or conductance
quantization. |
|
U |
|
Bioinspired and
Biointegrated Materials as
Frontiers Nanomaterials IV
|
|
|
This symposium, as
FOURTH Symposium (IV) on
"Bioinspired and Biointegrated
Materials as New Frontiers
Nanomaterials" , is aimed to
give overview of bioinspired and
biointegrated materials
multifunctional applications in
biomedical healthcare field
specially using biological and
mimetic molecules , materials
for design biointegrated and
bioinspired ones and their
multifunctional systems for
biomedical applications. [...]
|
|
V |
|
Functional perovskite
systems |
|
|
Multifunctional
perovskite-type oxides and
systems based thereon enable
numerous device applications in
electronics, sensing, energy and
health sectors. The symposium
will focus on experimental and
theoretical advances in
obtaining and understanding
novel or enhanced properties of
perovskites for emerging or
improved devices. |
|
W |
|
Harnessing
nano-bio-engineering tools for
tissue engineering and
regenerative medicine
applications |
|
|
This symposium will
bring together scientists to
review current advancements and
shortfalls in the growing areas
of Nanobiotechnology;
Nanobioengineeing;
Nanobiointerfaces;
Nanobiodiagnostics;
Biomaterials; Delivery Systems;
and Tissue Engineering and
Regenerative Medicine. |
|
X |
|
Antiferromagnetic
spintronics: materials,
characterization,
functionalities |
|
|
Antiferromagnetic
spintronics is a new emerging
field of materials science and
device physics aiming at
exploring unique properties of
antiferromagnets. In particular,
these materials do not generate
stray magnetic fields,
minimizing in this way
cross-taking between
nanodevices. [...] |
