?WHOSHOULDATTEND
12+2 20+ 60+ 125+INNOVATIVEFEATUREDSPEAKERS
HOURS OF NETWORKING
EVENTSINTERNATIONAL
SPEAKERSEDUCATIONAL
SESSIONS
DAyS WITH MORE THAN 45 SESSIONS, KEyNOTES & TALKS
Materials Scientists | Nanotechnologists | Chemical Engineers | Materials Engineers | Physicists | Nano-Scientists | Chemists | Academic Professors | Material Science Companies | Polymer Companies
EURO NANOTECHNOLOGy
CONGRESSMarch 26-27, 2020
PARIS, FRANCE
PRESENTATION TIME TO
WITH YOURCONNECT
PEERS
Register & Participate
in
EURO NANOTECHNOLOGy
2020
FORUM
KEYNOTE FORUM / MINI-PLENARY SESSIONS
DISTINGUISHED SPEAKERS FORUM(ORAL ABSTRACT SESSIONS)
STUDENT FORUM
Presentations under Keynote Forum or Mini-Plenary Sessions includes abstracts with remarkable research value selected by the program committee. These significant speeches are delivered by globally recognized honorable speakers and it is open to all registrants.
In this forum, speakers and experts of the research field gets an opportunity to showcase their noble research work that involves comprehensive research findings. These formal oral presentations include a wide range of talks covering basic research to advanced research findings in accordance to the theme and scientific sessions of the conference.
TYPES OF ACADEMICREGISTRATIONS
This session is particularly introduced to encourage more number of student participation at international conferences, however it is not restricted only to students since it is also available for the participants with language barrier. There are specific guidelines to be followed to prepare the poster. Poster topic should be selected only from relevant scientific sessions with in-depth technical details.
An exclusive opportunity for students and young investigators to present their research work through a formal oral presentation. Young Investigators Forum provides a global platform for young researchers and scholars to showcase their valuable contribution to the scientific world and to get acknowledged by the global scientific community of experts. It is an excellent opportunity to recognize young scientific assets with promising research ideas. These oral presentations are of shorter time duration with 10-15 minutes of informative and precise presentations in relevant scientific sessions.
NO SECRET IS SAFE SHARE YOUR RESEARCH
SPEAKERREGISTRATIONCOMBO A(Registration + 2 night’s accommodation)
COMBO B(Registration + 3 night’s accommodation)
POSTER SESSION
YOUNG INVESTIGATORS FORUM
DELEGATE REGISTRATION
https://nanotechnology.peersalleyconferences.com/
EDUCATIONAL WORKSHOPS/ RESEARCH WORKSHOPS/CORPORATE WORKSHOPS/MINI- SYMPOSIA
HIGHLIGHTS OF THE DAY SESSIONS
EDUCATIONAL SESSIONS/ TRAINING PROGRAMS
MEET THE PROFESSOR @ NETWORKING SESSIONS
SCIENTIFIC TRACKS/ SESSIONS
With an aim of transferring knowledge among the participants, workshops are introduced as a part of international conferences. These interactive and occasionally practical sessions gives an opportunity for participants to engage in detail discussion. Workshops are mostly scheduled for 60 to 90-minutes. It may range from learning about a specific topic relevant to international education, products and research which sometimes involves practical demonstration. It helps in enhancing skills, knowledge and understanding of the research field in depth through interactive discussions.
“Highlights of the Day Sessions” is introduced to discuss and focus a ray upon previous day ORAL ABSTRACT presentations by experts to summarise the key findings. It helps in getting better insights into the various dimensions of the topic.
Educational Sessions or training programs are specifically designed for a better understanding of the latest findings and technologies. These are generally 45-minute sessions that gives an exposure to the multidisciplinary field, that provides in-depth learning experiences and address educational needs.
This session involves open discussion between the experts and session attendees, it gives enough time for getting answers to specific questions and doubts. It is an opportunity for attendees to increase their professional networking, sometimes also leads to an excellent collaboration opportunity.
Introduction to Nanotechnology | Nanotechnology in Agriculture | Nanomedicine | Nanoelectronic and Biomedical devices | Nanopharmaceuticals | Cancer nanotechnology | Nanotoxicity | Environment, Health and Safety issues | Advanced nanomaterials | DNA nanotechnology | Polymer nanotechnology | Bio-Nanomaterials and Tissues engineering | Drug delivery and Nano particles | Recent developments in nanotechnology and nanoscience | Nanotechnology in water treatment | Green nanotechnology | Regulatory aspects towards approval of nanomedicine | Sustainability nanotechnology | Carbon nanotechnology | Nanotechnology products and markets | Nanorobots in medicine | Graphene and its applications
TYPES OF BUSINESSREGISTRATIONS
TYPES OF STUDENTREGISTRATIONS
TYPES OFADDITIONALREGISTRATIONS
SPEAKER REGISTRATION
REGISTRATION
COMBO A(Registration + 2 night’s accommodation)
YIF
COMBO B(Registration + 3 night’s accommodation)
DELEGATE REGISTRATION
Accompanying PersonE-PosterVirtual PresentationWorkshopsStart-Ups
POSTERS
COMBO A(Registration + 2 night’s accommodation)
COMBO B(Registration + 3 night’s accommodation)
NO SECRET IS SAFE SHARE YOUR RESEARCH
https://nanotechnology.peersalleyconferences.com/
GROUP PHOTO
LUNCH BREAK
COFFEE BREAK
COFFEE BREAK
INTRODUCTION TO NANOTECHNOLOGy
CANCER NANOTECHNOLOGy
NANOTECHNOLOGy IN AGRICULTURE
NANOTOxICITy
NANOMEDICINE NANO ELECTRONICS AND BIOMEDICAL DEVICES
ADVANCED NANOMATERIALS
• Fabrics• Reactivity of materials• Strength of materials• Molecular manufacturing
• Chemoterapy• Nanotheranostics for cancer• RNA nano technology for
cancer treatment• Nano colloids • DNA nanorobots
• Crop improvement• Soil management• Plant disease detection• Water management• Post-Harvest technology• Analysis of gene expression
and Regulation
• Genotoxicity• Cytotoxicity• Fullerne toxicity• Biodistribution• Nano visualization• Xeno biotech• Nanomedicine and toxicology
• Nano medicine and Nano capsules
• Nanoemulsions• Nano technology based imag-
ing technologies• Cellular based Therapy• DNA polyhedral• Novel opto electronic devices
• Nanotechnology in pollution prevention
• Nanotechnology for water• Ethical and social issues• Regulation of nanotechnology• Risks of nanotechnology• Nanotechnology in Ozone
depletion
• Nanorobotics and nanomanufacturing
• Nano – optics• Spintronics• Nano diamond devices• Micro fluids and micro
fabrication• Nano MEMS
• Biosensors, Diagnostics and Imagining
• Nanoparticles synthesis and Applications
• Thin films modelling, scale effects, nanostructured thin films
• Inorganic/organic nanomaterials• Semiconductors, Metals,
Ceramics,Polymers• Graphene, Fullerenes, Carbon
nanotubes, low-dimension nanostructures
• Nanostructured coatings, surfaces and membranes
DNA NANOTECHNOLOGy POLyMER NANOTECHNOLOGy DRUG DELIVERy AND NANO PARTICLES• Properties of nucleic acids• Structural DNA nanotechnology• Dynamic DNA nanotechnology• Structural and sequence
designing• DNA origami• Three-dimensional arrays• Design of nanodrugs
• Bio-hybrid nanofibres• Bio-hybrid polymer nanotubes• Silicon nanospheres• Nanocarbon tubes• Electriactive polymers• Copolymer• Biopolymer• Nanocomposite• Coatings and charges
• New therapeutics delivery• Targeted delivery• MEM/NEM devices for drug
delivery• Cell-nanotopography interactions• Nanofabricated scaffolds
NANOTECHNOLOGy IN WATER TREATMENT GREEN NANOTECHNOLOGy
• Nanotechnology and nanosensors• Nanoparticles, nanodrugs and
nanomaterials• Nanobiotechnology and
Nanobiopharmaceutisis• quantum nanoscience• Bionanoscience• Toxicity and environ,ental impact
of nanoscale materials
• Wastewater treatment• Application of nanotechnology in water
and wastewater treatment• Nanomaterials and membrane filtration• Metals, bimetallic nanoparticles and
mixed oxides• Naturally occuring material the case
of Zeolites• Metallic nanoparticles• Carbon nanocompounds• Modified photocatalysts• Nanotechnology and human health
• Green nanotechnology challenges and opportunities
• Nanotechnology innovation and governance
• Advancing greener nanomanufacturing
• Additive processes and greener nanomaterial production
• Moving from natural enemies or partners for nature
https://nanotechnology.peersalleyconferences.com/
THURSDAY, MARCH 26, 2020Concurrent Educational Sessions
• Regulatory perspective on the development of nanomedicines
• Nanomedicines in the market• Regulatory development for
next-generatin of nanomedicines
ENVIRONMENT, HEALTH AND SAFETy ISSUES
BIO-NANOMATERIALS AND TISSUES ENGINEERING
• Liquid based template assembly• Bioartificial organs• Artificial bone marrow• Artificial bone marrow• Bone tissue-engineered vessels• oral mucosa tissue engineering• Artificial pancreas• Nanofiber self-assembly
RECENT DEVELOPMENTS IN NANOTECHNOLOGy AND NANOSCIENCE
REGULATORy ASPECTS TOWARDS APPROVAL OF NANOMEDICINE
GRAPHENE AND ITS APPLICATIONS
SUSTANABILITy NANOTECHNOLOGy CARBON NANOTECHNOLOGy NANOROBOTS IN MEDICINE
• Graphene synthesis• Graphene and biology studies
of graphene• Applications of graphene in
energy• Applications of graphene in
biomedical
• Nanofertilizers• Nanopesticides
• Carbon nanotubes• Extreme carbon nanotubes• Synthesis of carbon nanotubes• Carbon nanoparticles• Vertically aligned carbon nano-
tube arrays• Carbon nanotube chemistry• Nitrogen-dropped carbon
nanotube• Organic semiconductor
• Detectin nanorobots • Medical nanorobots for
disabled control• Nanorobots in gene therapy
https://nanotechnology.peersalleyconferences.com/
Concurrent Educational SessionsFRIDAY, MARCH 27, 2020
NANOTECHNOLOGy PRODUCTS AND MARKETS
• Nanophase Technologies Corporation
• Altair nanotechnologies• Carbon nanotechnologies• Nanoworld AG oxford
instruments
GROUP PHOTO COFFEE BREAK
Title: Multifunctional Nanoparticles for Energy Technology Valery N. Khabashesku | Rice University, USA
Abstract:
The remarkable advances made during the last two decades in synthesis and chemical
modification of nanoparticles created broad opportunities for research and development
towards applications of functional nanoparticles in energy field. The common requirement
for these applications is colloidal stability of nanoparticle dispersions in different fluids, both
water-based (polar) and oil-based (non-polar), and stability at temperatures and brine
concentrations at conditions required for these applications. Baker Hughes has recently
developed methods for synthesis of thermo stable functionalized colloidal nanoparticle
systems based on nanosilica, carbon dots, and core-shell nanostructures and created new
technology platform for oilfield applications, such as enhanced oil recovery and tracers for
reservoir monitoring. Fluorescent carbon quantum dots (CQD), surface modified with both
hydrophilic and hydrophobic functionalities and doped in situ by N, B, and Si, were
synthesized using electrochemical redox reactions. Colloidal synthesis was applied for the
preparation of fluorescent silica and magnetic core-shell nanoparticles.
Title: Elastic-Scattering Engineering: Key to Ultimate Performance from Mid-IR Quantum Cascade Lasers
Dan Botez | University of Wisconsin Foundation, USA
Abstract:
The highest CW powers reported from mid-infrared (IR)-emitting quantum cascade lasers
(QCLs) have been achieved from devices with active regions (ARs) designed to suppress
thermally activated leakage caused by electron-LO-phonon interaction. In particular, in
the ARs, tapered and stepwise-tapered barriers and wells have been used to maximize
Eul+1,ul; i.e., the energy difference between the upper laser (ul) level and the bound
excited (ul+1) level above it. In turn, we have obtained record-high injection-ef
values (84 %). In addition, by adding elastic-scattering engineering, step-tapered QCLs
to 93 %). Both effects led to record-high internal- i values for both MBE- (70 %)
and MOCVD- (77 %) - grown devices. However, those values are ~ 21 % and ~ 13 % lower
considering carrier leakage triggered by interface-roughness (IFR) scattering both from
the ul level and from injector states to the ul+1 level.
Abstract:
Due to the commercial and other advantages offered by nanotechnology, numerous
sectors have started employing nanotechnology and acknowledging the tremendous
potential of nanotechnology both industry and academia are dedicating significant
efforts in this direction. Following the significant impact of nanotechnology on economy
at the global scale and the way it is revolutionizing the industry, there is an imminent
need to educate and train the future work force in nanotechnology and related areas. Due
to the inherent nature of the field of nanotechnology, Virtual Reality (VR) can be an
extremely useful tool in providing an efficient medium for nanotechnology instruction.
Enhanced engagement can be attained by actively involving the participant or trainee in
the process and VR is a proven tool that can engage learners. This presentation will
illustrate virtual environments generated for nanotechnology instruction and also other
related engineering/STEM applications. Faced with dwindling attention-span and the
urge to see results immediately, it is quite challenging to engage all students to spend
the required amount of time to master nanotechnology concepts. Virtual training has
immense potential in terms of courses using alternative delivery modes including online
as well.
Title: Affordable Virtual Reality for Nanotechnology Instruction Magesh Chandramouli | Purdue University NW, USA
Abstract:
It will be shown that the Sneddon, Oliver-Pharr, ISO-14577 standards enforce wrong
exponents for the indentation loading curves for cones/pyramids and spheres and they
violate the energy law also for flat punches by enforcing a belief that the elastic and plastic
work can be formed from nothing. Nevertheless, they use elastic pressure work for extremely
extensive iterations of contact area and elastic modulus. Only self-similar
cones/pyramids/wedges give parabolas and the exponent is 3/2 (but not 2). The linear
regressions of normal force versus depth3/2 give the penetration resistance [N/m3/2].
Spheres do not give parabolas, and flat punches give straight lines. The physical foundation
by sacrosanct elementary algebra provides the mathematical proof. Initial surface effects
have to be excluded from regressions. It will be shown that the pressure effects are 20% of
the applied force or energy for cones, pyramids, and wedges, or 0.5 for flat punches. This
allows for physically correct calculation of materials' properties. One stays in line with the
energy law, and reveals unexpected new mechanical parameters simply by physical analysis
of indentations but not believing in historical errors. Most important are the easiest detection
of phase-transition onsets and transition energies with their activation energies. Nothing of
that is available with the false exponent 2 of Oliver-Pharr and for ISO-ASTM standards!
Title: Materials mechanics, from penetration resistance to phase-transition energy and catastrophic crashing Gerd Kaupp | University of Oldenburg , Germany
Abstract:
The access to raw materials is an economic and major geopolitical stake for the 21st century.
Some key elements considered today in the emerging devices for the Internet of Things (IoT)
must be substituted or saved (by orders of decades) in a drastic way in the near future. Since
tens billions electronic objects are then being disseminated all over the world in homes,
buildings, cars, roads, etc., it is obviously a major concern to revisit the economic,
technological, and societal models to develop a sustainable electronic industry that will care
about its impact right from the conception of these objects.
2D, 1D and 0D semiconductor nanomaterials present interesting properties and are already
used in electronic, lightening and photonic devices. More particularly semiconductor
nanostructures are increasingly used by the semiconductor industry for low power
electronics, high frequency operation, WIFI technology, optical communications, sensors…
In this contribution, we will show routes to develop processes to integrate groups IV, III-V and
2D dichalcogenides nanostructures to realize specific functions such as low power
electronics, light emission and detection, and sensors with technologies compatible with
large-scale integration.
Title: Hetero-integration of nanomaterials on Si substrate for nanoelectronic and optoelectronic devices Thierry Baron | LTM University, France
Abstract:
Advances in biology and clinical diagnosis require biological inspired tools and technology
platforms to measure, understand and control biological systems. The development of
stimuli-responsive interfaces between synthetic materials and biological systems is
providing the unprecedented capability to modulate biomolecular interactions for a diverse
range of biotechnological and biomedical applications.1-5 At the heart of many biosensing
platforms are the antibody-antigen binding interactions. However, while advances have been
focused on passive, always-on target detection, there is great potential in the development
of antibody-antigen sensing platforms with effective temporary detection. With this proviso
in mind, molecular surfaces have been designed and developed using an electric potential to
drive a conformational change at the surface bound peptide moiety, providing control over
antigen-antibody5 and more recently, nanobody-antigen interactions, on sensor chips.
Nanobodies emerge with great potential due to their small nanometer size, ease of genetic
manipulation and expression, high stability and antigen-binding capacity as compared to
full-length antibodies.
Title: Smart Switchable Biological Surfaces for On-Demand Biosensing Bárbara Simões | University of Birmingham , UK
Abstract:
The results revealed the stable, smooth, spherical and nano-sized nanoparticles with
improved size uniformity (from 100 to 400 nm in diameter) and encapsulation-efficiency
(E.E.%) than previously reported (500–2000 nm) with the chemical compatibility evident in
ATR/FTIR and DSC results. Animal experiments results revealed the improvement of
incretin level in the serums due to potent DPP-4 inhibition compared to the free-
VD/solution with better maintenance of glycemic levels after feeding. The safety of these
HPMC/EC-DNA-VD nanoparticles was assessed through the histological-examination after
completion of the treatment turn. The solvent evaporation technique provided the better
coating of HPMC around DNA-core with gastro-resistant and effervescent property due to
presence of NaHCO3 (0.01%) in the formulations that caused delayed delivery of VD as
well as nanoparticles to the intestine, increasing the availability time of the drug and
nanospheres at the target sites (intestine and blood) where DPP-4 enzyme is most
abundant (to degrade the GLP-1 and GIP causing loss of control of the postprandial
glycemic levels.
Title: DNA scaffold nanoparticles coated with HPMC/EC
Mirza Muhammad Faran Ashraf Baig | Nanjing University, China
Abstract:
It is known the intense use of Polypropylene (PP) in many equipments, devices and
accessories used in medicine. Recently, Biopolypropylene (BioPP) has been introduced
into surgical sutures due to its reduced toxicity effects in the human body, compared to
PP obtained by the classical industrial methods.
The article studies the influence of the different metallic particles with nano dimensions
on the crystallinity of the composite materials with isotactic PP as matrix. It shows the
influence on the thermal, mechanical and electrical characteristics of these composite
materials. These composites could be used in the detection and treatment of cancer
diseases.
Title: Possibilities to use Polypropylene with nano - metallic particles in medicine Doina Elena Gavrila | Politehnica University of Bucharest , Romania
Abstract:
In this work, we employed density functional theory [1] to study the effect of ZnO
thickness on the physical properties of ZnO/TiO2 core/shell nanostructures and their
impacts when these structures are used in photocatalytic or photovoltaic systems [2]. We
varied the thickness of the core from 4 to 16 A°. The effect of the thickness on the
electronic and mechanical properties was analyzed at GGA and GGA+U levels. The results
show a non-uniform variation in the energy gap of the core/shell nanostructure
suggesting a compensating mechanism due to the electronic defect states [3]. A larger
energy gradient between the conduction band of ZnO and the conduction band of TiO2
was observed which favors the transfer of the excited electrons from ZnO to TiO2, in
agreement with experiments [4]. However, the heterostructure shows a good resistivity
even for a very fine core thickness. With such thin core/shell structures, the ratio of
surface/volume can be increased and a longer exciton lifetime is expected when they are
used in dye sensitized solar cells
Title: Effet of the core thickness on the physical properties of ZnO/TiO2 core/shell nanostructures: Firstprinciples study
Slimane Haffad | University A.Mira of Bejaia , Algeria
Abstract:
In this work, we presented a numerical study of the phenomenon of heat transfer through
the laminar, incompressible and steady mixed convection in a closed square cavity with
the left vertical wall of the cavity is subjected to a warm temperature, while the right wall
is considered to be cold. The horizontal walls are assumed adiabatic. The governing
equations were discretized by finite volume method on a staggered mesh and the
SIMPLER algorithm was used for the treatment of velocity-pressure coupling. The
numerical simulations were performed for a wide range of Reynolds numbers 1, 10, 100,
and 1000 numbers are equal to 0.01,0.1 Richardson, 0.5,1 and 10.The analysis of the
results shows a flow bicellular (two cells), one is created by the speed of the fan placed
in the inner cavity, one on the left is due to the difference between the temperatures right
wall and the left wall. Knowledge of the intensity of each of these cells allowed us to get
an original result. And the values obtained from each of Nuselt convection which allow to
know the rate of heat transfer in the cavity.Finally we find that there is a significant
influence on the position of the fan on the heat transfer (Nusselt evolution) for values of
Reynolds studied and for low values of Richardson handed this influence is negligible for
high values of the latter.
Title: Analysis of heat transfer in a closed cavity ventilated inside Benseghir Omar | University of Science and Technology Houari Boumediene , Algeria
Abstract:
Artificial organs associated to clinically well-established membrane-based treatments
assure in extracorporeal blood circulation devices the metabolic functions of a failing organ
like the hemodialyzer for the kidney. The hemodialysis (HD) membrane is the key
component of the artificial kidney as it is responsible for removing accumulated uremic
toxins, excess ions and water while simultaneously retaining vital components from the
blood of End Stage Renal Disease (ESRD) patients [1]. The technical and medical progress
of the artificial kidney depends on two major factors: 1) hemocompatibility of the
membrane/blood interfaces, and 2) enhancement of the flow management/mass transfer
associated to the metabolic functions of the artificial kidney. The present study aims the
synthesis and characterization of high flux ultrafiltration membranes for the artificial kidney
with retention of albumin and permeation of urea. The hybrid membranes of cellulose
acetate (CA) and silicon dioxide (SiO2), CA/SiO2, were synthesized via the coupling of the
phase inversion and the sol-gel techniques. Results show that the incorporation of 5 mol%
of silica increased the hydraulic permeability from 32 to 82 kg/h/m2/bar when compared to
the pure CA membrane and that the CA/SiO2 [2]. Furthermore, the hybrid membrane
containing 5 mol% SiO2 showed total retention of albumin and complete permeation of
urea.
Title: Hybrid integral asymmetric cellulose acetate/silicon dioxide ultrafiltration membranes for uremic blood purification
Maria Norberta de Pinho | Center of Physics and Engineering of Advanced Materials ,
Portugal
Abstract:
ZnO thin films were elaborated by the presence of three different precursors of Li (acetate,
chloride and nitrates) using sol-gel technique on glass substrates. The aim of this work is
based on the choice of different precursors of Lithium, which has the best physical
properties. The structural properties obtained by X-ray diffraction showed that all the films
are polycrystalline. The sample used lithium nitrates have a preferred orientation along c-
axis (002) and their grains size are too higher compared to acetates and chlorides. The UV-
Visible transmission confirms that all ZnO films have a good transparent with a
transmission of 85% in the visible. The value of band gap Eg vary between 3.19 eV and
3.28eV. All of the results revealed that the films of ZnO doped with LiNO3 exhibit the
highest crystallographic quality and the best optical and electrical properties compared to
the two other precursors.
Title: Effect of the precursors of Li on the physical properties of ZnO thin films elaborated by sol-gel method
Ahmed El Hichou | University Cadi Ayyad Faculté des Sciences et Techniques Guéliz ,
Morocco
Abstract:
Organic solar cells (OSCs) consist of a bulk heterojunction (BHJ) active layer of carbon-
based donor (D) and acceptor (A) materials, have many environmental advantages
compared to other inorganic counterparts’ technologies. Moreover, OSCs can be
manufactured through low cost printing technology on flexible substrates and have short
pay-back time. In addition, OSCs can be made of different colors and semitransparent or
transparent offering unique application, i.e. building integration and green houses. Early
progress in OSCs are mainly based on fullerene derivatives (PC61BM or PC71BM) and
achieved overall Power conversion efficiencies (PCEs) of around 11%, using either
conjugated polymer or small molecule as donor component BHJ active layer [1]. However,
fullerene derivatives suffer from several drawbacks, such as weak absorption in visible
region of the solar spectrum, high synthesis costs, limited tailoring of energy levels and high
voltage loss. As a consequence, it is not possible to improve the PCE of fullerene devices
further. In an effort to overcome these obstacles, in the past two years a great deal of
attention has been paid to the development of non-fullerene acceptors (NFAs), especially
small molecule acceptors (SMA) [2]. After the limited time of research work on the
designing of new SMA, the overall PCE of more than 16% [3-5] and 17 % [6] have been
achieved for single junction and tandem based structures, respectively, and are on the road
to the commercial reality.
Title: Recent advances on organic solar cells based on non-fullerene acceptors: materials and device optimization
Ganesh Datt Sharma | The LNM Institute of Information Technology , India
Abstract:
Alumina-based ceramics and NiFe2O4 melt was carried out to explore the glass, glass-
ceramics and multiferroic phases using an aerodynamic levitator (ADL). The containerless
levitation under deep undercooling conditions can achieve novel microstructures such as
refined grain size, stable/metastable phases and glassy phases. A spherical sample was
levitated by an ADL and completely melted by a CO2 laser. Then, the droplet was cooled by
turning off the CO2 laser. The surface¬¬ temperature and solidification behaviour of the
levitated droplet was monitored by pyrometer and a high-speed video. Among the rare earth
aluminum perovskites, La, Nd and Sm aluminum perovskites solidified as glass and Eu-Lu
aluminum perovskites solidified as crystalline phases. The NdAlO3 glass phase showed a
high refractive index of ~1.89, suggesting that containerless levitation is an elegant
technique for fabrication of new glass and crystalline ceramics from an undercooled melt.
The x-ray diffraction (XRD) and the cross sectioned scanning electron microscopy (SCM)
images confirm the existence of the glass, glass-ceramics and multiferroic NiFe2O4
phases
Title: Fabrication of Advanced Ceramics and Glass by Containerless Technique
M. S. Vijaya Kumar | University of Mysore , India
Abstract:
Recently, transition metal doped nanophosphors have attracted great attention in the field
of luminescent materials for advanced solid-state lighting and high-resolution display
applications. However, further improving their fluorescence properties especially for
nanomaterials still remain a challenge for easy commercialization of these devices. In the
present work, highly efficient blue emitting Mn2+ doped BaAl2O4 nanophosphors were
successfully synthesized by simple hydrothermal technique. The nanophosphors were
then characterized by using the X-ray powder diffraction (XRD), Rietveld refinement of
XRD, Field Emission Scanning Electronic Microscopy (FESEM), and Photoluminescence
spectroscopy (PL). The as prepared nanophosphors have an average crystallite size of 40-
50 nm. The nanophosphors display intense blue emission having two peaks with maxima
at around 415 nm and 440 nm under 365 nm near UV excitation which enhances with
increasing Mn2+ doping concentration. Color purity of the samples are also enhanced due
to the increased doping concentration of the transition metal activator in the BaAl2O4
matrix. Obtained results prove that this nanophosphor is suitable to compete in the rapidly
growing field of solid-state lighting and field emission display devices.
Title: Structural and luminescent properties of BaAl2O4: Mn2+ nanophosphors for solid state lighting applications Rituparna Chatterjee | Jadavpur University , India
Abstract:
MXenes, as a new kind of Two-Dimensional materials, have been deemed to be one of the
most promising anode electrodes for lithium-ion batteries and supercapacitors because of
their metallic conductivity, hydrophilic surface, remarkable capacitive performance, and
high energy density. However, the stacked layers of MXene cause a loss of energy density,
which prevents the full utilization of MXene potential. Herein, to solve this problem, stacked
layers of MXene was separated by carbon nanotubes. 〖Ti〗_3 C_2 MXene Nano-sheets/
CNT composite was prepared by spark plasma sintering method for synthesis of 〖Ti〗_3
C_2 MXene Nano-sheets and followed by CNTs incorporating and characterized by
scanning electron microscopy (SEM) and X-ray diffraction (XRD). Galvanostatic
charge/discharge testing techniques, electrochemical impedance spectroscopy (EIS), and
cyclic voltammetry (CV) were employed to evaluate the electrochemical behaviors of 〖Ti
〗_3 C_2 MXene Nano-sheets/ carbon nanotubes composite. As a result, the designed
anode for lithium-ion batteries exhibited that compared to bare 〖Ti〗_3 C_2 MXene Nano-
sheets. The 〖Ti〗_3 C_2 MXene Nano-sheets /CNT composite has better electrochemical
performances, outstanding energy capacity up to 300 mAh/g at 0.5C after 50 cycles.
Therefore, the 〖Ti〗_3 C_2 MXene Nano-sheet/CNT composite is a highly attractive
material as anode for lithium-ion batteries.
Title: Synthesis and characterization of electrochemical behaviors of 〖Ti〗_3 C_2 MXene Nano-sheet Sasan Rostami | Amirkabir University of Technology
Title: In situ preparation and characterization of novel CuI‐functionalized poly as efficient heterogeneous catalyst region selective synthesis
Shervin Ahmadi | Iran Polymer and Petrochemical Institute
Abstract:
In heterogeneous catalysis, the facile separation, recovery and reusability of the catalysts
are of great significance. Therefore, the immobilization of various metals onto different
supports is a common strategy for the preparation of various effective heterogeneous
catalysts, Nano‐size distribution and functionalization of metals allows better dispersion of
particles, higher stability and good recycling properties, promoting such systems to act as
effective catalysts.
Poly[(methyl methacrylate)‐co‐(maleic anhydride)], or [PMMA‐co‐MAH], is an amorphous
engineering thermoplastic with excellent mechanical and optical properties which including
active anhydride groups that can be modified with various nucleophilic reagents. This
structure can provide an attractive and useful polymer support for the design of various
interesting materials and more importantly can be used for the immobilization of a variety
of metals for the preparation of a wide range of easily separable and reusable effective
heterogeneous catalysts.
NO SECRET IS SAFE SHARE YOUR RESEARCH
Sponsors | Media Partners
https://nanotechnology.peersalleyconferences.com/
A right choice of conference destination is an important aspect of any international conference and keeping that in consideration, Euro Nanotechnology 2020 is scheduled in the Beautiful city ‘’Paris’’.
NETWORKING...CONFERENCING...FOSTERING
ATTENDING A CONFERENCE ISN’T ALL ABOUT LEARNING AND NETWORKING
A NEW PLACE , PEOPLE AND CULTUREDISCOVERING
Avenue des Champs Élysées
Arc de Triomphe
Musical Concerts at Sainte Chapelle
Palais Garnier, Opéra National de Paris
Bustling Boulevards and Legendary Cafés
Eiffel Tower
Musée d’Orsay
Place de la Concorde
Cathédrale Notre Dame de
Luxembourg Gardens
Musée du Louvre
Seine River Cruises
David MillerProgram Director | Euro Nanotechnology 2020
Peers Alley Media1126 59 Ave East, V5X 1Y9
Vancouver BC, CanadaContact us: [email protected]
Ph : +1-778-766-2134
https://nanotechnology.peersalleyconferences.com/
Contact Us
Connect with us