Lugege ainult LitRes'is

Raamatut ei saa failina alla laadida, kuid seda saab lugeda meie rakenduses või veebis.

Loe raamatut: «First virtual Bilateral Conference on Functional Materials (BiC-FM)»

Сборник статей
Font:

Welcome to First virtual Bilateral Conference on Functional Materials (BiC-FM)!!!

Dear BiC-FM 2020 participant,

We are pleased to welcome you to the First Bilateral Conference on Functional Materials organized between two neighboring countries with a long history of successful scientific collaboration: Finland and Russia!

The aim of this conference is to strengthen the existing mutual research and to establish new collaborations between scientific groups from Russia and Finland. We would like to motivate groups to share their recent advancements in both fundamental and applied science of functional materials. We wish that the Conference forms as a substantially important platform for students and young scientists to attend lectures and interact with the leading senior scientists at the forefront of their fields. Equally importantly, the Conference offers opportunities for the young scientist to introduce their state-of-the-art research work.

The BiC-FM 202 °Conference has attracted more than 130 participants registered not only from Finland and Russia, but also from various universities and institutions around the globe from such countries as India, Malaysia, Israel, Vietnam, USA, Great Britain and Brazil. Together we create new traditions, we support intensive idea exchange and virtual networking!

We thank our committed organizers, conscientious scientific committee and tireless administrative staff for their priceless help. We are grateful to the financial support by our generous sponsors and in particularly acknowledge Russian Science Foundation (Project identifier: 17-19-01787).

We wish that you will have enjoyable, enlightening and productive days during our Conference. We also look forward the pandemic situation in the World becoming better to organize face to face meetings in the forthcoming years!

Sincerely yours,

Conference chairs

Albert G. Nasibulin and Tanja Kallio

Organizers


Scientific committee

Regular Members

prof. Albert Nasibulin

Skolkovo Institute of science and technology


Prof. Tanja Kallio

Aalto University


Dr. Dmitry Krasnikov

Skolkovo Institute of science and technology

Invited members

Prof. Ivan Bobrinetskiy

National Research University of Electronic Technology


Dr. Maryam Borghei

Aalto University


Prof. Lyubov Bulusheva

Novosibirsk State University


Prof. Nikolay Gippius

Skolkovo Institute of science and technology


Prof. Dmitry Gorin

Skolkovo Institute of science and technology


Prof. Boris Gorshunov

Moscow Institute of Physics and Technology


Prof. Georgy Fedorov

Moscow Institute of Physics and Technology


Prof. Krizstian Kordas

University of Oulu


Prof. Vladimir Kuznetsov

Boreskov Institute of Catalysis SB RAS


Prof. Tomi Laurila

Aalto University


Prof. Peter Lund

Aalto University


Prof. Kati Miettunen

University of Turku


Prof. Vladimir Mordkovich

Technological Institute for Superhard and Novel Carbon Materials


Dr. Virpi Siipola

VTT Technical Research Centre of Finland


Prof. Sergey Shandakov

Кеmerovo State University


Prof. Yury Svirko

University of Eastern Finland


Prof. Anvar Zakhidov

ITMO University

Organizing committee

Chairs

prof. Albert Nasibulin

Skolkovo Institute of science and technology


Prof. Tanja Kallio

Aalto University

Secretary

Dr. Dmitry Krasnikov

Dr. Fedor Fedorov

Dr. Daria Kopylova

Dr. Anastasia Goldt

Mr. Eldar Khabushev

Dr. Ekaterina Fedorovskaya

Mr. Javier Antonio Ramirez Benavides

Scope

The aim of the Conference is to provide a platform for discussion of the recent advances in both fundamental and applied science of novel functional materials with a special attention to low dimensional materials to force birateral collaboration.

The Conference will be held October, 8–9, 2020.

Scientific program

Synthesis (of functional materials)

Modelling (of functional materials)

Electrochemical Applications (of functional materials)

Photonics (of functional materials)

Modification/functionalization (of functional materials)

Sponsors


Program

Thursday, October 8

9.45

Opening Speech


Session 1: Synthesis

10.00

Keynote Talk 1: Alexander Okotrub

10.25

Keynote Talk 2: Esko Kauppinen

10.50

Oral Talk 1: Vladimir Kuznetsov

11.05

Oral Talk 2: Hasaan Butt


11.20

Break


Session 2: Modelling

11.45

Keynote Talk 3: Olga Glukhova

12.10

Keynote Talk 4: Kari Laasonen

12.35

Oral Talk 3: Stefan Shcherbinin

12:50

Oral Talk 4: Alexander Kvashnin

13:05

Sponsor talk (Swagelok)


13.20

Break/lunch time


Session 3: Electrochemistry. I

14.40

Keynote Talk 5: Keith Stevenson

15.05

Keynote Talk 6: Carita Kvarnström

15.30

Oral Talk 5: Bernardo Barbiellini

15.45

Oral Talk 6: Stanislav Evlashin


16.00

Break


Session 3: Electrochemistry. II

16.25

Keynote Talk 7: Cristina Flox

16.50

Keynote Talk 8: Jari Koskinen

17.15

Oral Talk 7: Stanislav Fedotov

17.30

Oral Talk 8: Muhammad Asghar

Friday, October 9

9.45

Session 4: Photonics. I

10.00

Keynote Talk 9: Zhipei Sun

10.25

Keynote Talk 10: Yury Gladush

10.50

Oral Talk 9: Aleksei Emelianov

11.05

Oral Talk 10: Dmitry Mitin


11.20

Break


Flash presentations


Please find the schedule below


13.20

Break/lunch time


Session 4: Photonics. II

14.40

Keynote Talk 11: Elena Obraztsova

15.05

Keynote Talk 12: Sergey Makarov

15.30

Oral Talk 11: Bakhysh Bairamov

15.45

Oral Talk 12: Dmitry Chermoshentsev


16.00

Break


Session 5: Modification/functionalization

16.25

Keynote Talk 13: Polina Kuzhir

16.50

Keynote Talk 14: Ayrat Dimiev

17.15

Oral Talk 13: Boris Gorshunov

17.30

Oral Talk 14: Markus Ahlskog


17.45

Closing remarks


Flash session #1: Synthesis of materials

Chairs: A. Nasibulin, D. Krasnikov

Alisa Shaikhulova

High-yield synthesis of single-walled carbon nanotube films for targeted applications

Ilya Novikov

Residence time as a tool for optimization of aerosol CVD synthesis of single-walled carbon nanotubes

Alexey Zavorin

Topochemical transformations in MWCNTs-Si composites at high temperatures

Elena Shlyakhova

Nitrogen – doped porous carbon obtained by precipitation of acetonitrile vapors on template C–CaO nanoparticles for electrochemical applications

Maksim Vladimirovich Lomakin

Preparation of carbon nanotube fibers by folding the randomly oriented SWCNT films

Dharshini Perumal

Green synthesis of reduced graphene oxide for biomedical applications

Svetlana Stolyarova

Thermal shock as a new approach for the synthesis of porous MoS2

Maria Vikulova

Preparation of functional carbon coatings on the surface of hollandite-like ceramics with composition of K1.53(Сu0.76Ti7.24)O16

Siti Nadiah Zulkifli

Synthesis, Characterization and Toxicity Studies Of Gold Nanoparticles For Biomedical Applications

Ashreen Norman

Green Synthesis Approach to Produce Luminescent Nanoparticles from Agricultural Waste and their potential biomedical application

Javier Antonio Ramirez Benavides

Synthesis of core shell Nano magnets with size tailoring by aerosol CVD


Tatiana Abakumova

Prussian-blue lipid nanoparticles for effective siRNA delivery to liver

Emmellie Laura Albert

Toxicity evaluation of Herbs based Carbon Dots using Artemia Salina Cyst and its three larval stage

Che Azurahanim Che Abdullah

Fabrication of magnetic graphene oxide and its developmental toxicity to Artemia Salina Cyst and its three larval stage

Muhammad Azri Muhamad Yusop

Biogenic synthesis of titanium dioxide: its composite with iron oxide and their potential biomedical application


Flash session #2 :Physics of materials

Chairs: D. Kopylova, Yu. Gladush

Vasilii Vasilchenko

Polarons in Two-dimensional Pnictogens: DFT Study

Nikita Gudkov

Parametric modelling of electric percolation and conductivity of carbon nanotubes nanocomposite

Aram Mckrtchyan

Pulse switchable fiber laser based on ionic liquid gated carbon nanotube saturable absorber

Denis Zhigunov

Enhanced imaging of single Si nanoparticles using non-reflective SWCNT membranes

Ivan Komarov

Low cost lasers as suitable instrument for graphene oxide thin film modification

Tigran Prazyan

Optical Properties Of Carbon Nanodots Obtained From The Kuzbass Basin Coals

Alexandr Parfenov

Influence of allotropy of carbon nanostructures on tribological and rheological processes in plastic lubricants

Konstantin A Motovilov

Copper (2+) ions decrease conductivity of melanin in both bulk and film forms

Nikita Nekrasov

Toxin detection through graphene Dirac point shift tracking

Vladislav Andryushkin

Investigation of structural and optical properties of three-dimensional InGaPAs islands

Abinash Das

Visible light driven photocatalytic performance of Ag modified ZnO nanorod through effective charge carrier separation


Asmaa Gamal Ahmed

Terahertz-infrared excitations in the Ba0.2Pb0.8Al1.2Fe10.8O19 single crystal

Vladislav Nikolaevich Mironyuk

Dependence of frequency-capacitance curves for the «Air – Langmuir Monolayer – Water» system on the colloid solution amount spread out the water surface

Dmitry Khudyakov

Nonlinear optical absorption in lead halide perovskite thin films

Gee Een Lau

Eco-Friendly Photocatalysts for Degradation of Dyes


Flash session #3: Chemistry of materials

Chairs: F. Fedorov, A. Goldt, E. Fedorovskaya

Anna Iurchenkova

Electrochemical behaviour of thermally reduced graphite oxide in Li-ion batteries

Vasily Artemov

Electrodynamic properties of low-dimensional water

Ahaliabadeh Zahra

Enhanced electrochemical performance of TiO2 modified LiNi0.6Co0.2Mn0.2O2 cathode material via atomic layer deposition

Andrey Shevtsov

Protective spinel coating for Li1.17Ni0.17Mn0.50Co0.17O2 cathode for Li-ion batteries through single-source precursor approach

Natrah Shafiqah Rosli

Composites nano-titania graphite for photocatalytic and antibacterial activities

Anna Vorfolomeeva

Phosphorus-filled single-walled carbon nanotubes: synthesis, characterization and electrochemical properties

Anna Kobets

Li-ion batteries with negative electrodes made of reduced graphite oxide

P. Murali Krishna / Gurdeep Rattu

Polyacrylic acid modified cerium oxide nanoparticles for non-enzymatic H2O2 Sensor

Julia Bondareva

Naphthyl – functionalized dendrimers can regulate surface properties of materials

Dmitrii Stolbov

N-doped graphene nanoflakes for catalysis and tribology

Anna Vershinina

The influence of chlorine and chloroauric acid treatment on electromechanical properties of SWCNT fibers


Daniil A. Ilatovskii

Stable doping of carbon nanotubes by V2O5 using fast sol-gel method

Yury Panasenko

Flexible supercapacitors based on free-standing films of polyaniline/single-walled carbon nanotube composites

Durga Sankar Vavilapalli

Multifunctional brownmillerites for efficient energy harvesting and storage applications

Anton Vorobei

Deagglomeration of carbon nanotubes via rapid expansion of supercritical suspensions

Oral Sessions

Thursday, October 8

Day 1, October 8


Session 1: Synthesis of novel materials Сhairs: A. Nasibulin / T. Kallio

10.00–10.25

Keynote Talk 1 Prof. Alexander Okotrub

Structure of graphitized films formed on the diamond surface under high-temperature annealing Keynote

10.25–10.50

Talk 2 Prof. Esko Kauppinen

FC–CVD synthesis large diameter CNTs for transparent conductor applications

10.50–11.05

Oral Talk 1 Prof. Vladimir Kuznetsov

Characterization of the distribution of multilayer carbon nanotubes in polymer composites using cyclic measurements of current-voltage characteristics

11.05–11.20

Oral Talk 2: Prof. Hasaan Butt

The electric resistivity and piezoresistive response of functional carbon nanocomposites


11.15–11.45

Break


Session 2: Modelling of novel materials Сhairs: I. Bobrinetskiy /D. Krasnikov

11.45–12.10

Keynote Talk 3 Prof.Olga Glukhova

Anisotropic electrical conductivity in graphene films with vertically aligned single-walled carbon nanotubes: new advances in mechanisms and applications

12.10–12.35

Keynote Talk 4 Prof. Kari Laasonen

Oxygen evolution reaction on pristine and defective nitrogen-doped carbon nanotubes and graphene

12.35–12.50

Oral Talk 3: Prof. Stefan Shcherbinin

Starfish-like phosphorus carbide nanotubes

12.50–13.05

Oral Talk 4: Prof. Alexander Kvashnin

Computational search for new high-TC superconductors with subsequent synthesis

13.05–13.20

Sponsor talk (Swagelok)


13.20–14.40

Break/lunch time


Session 3: Electrochemistry of novel materials Сhairs: L. Bulusheva/ F. Fedorov

14.40–15.05

Keynote Talk 5 Prof. Keith Stevenson

Enhanced Electrocatalytic Activities by Substitutional Tuning of Nickel-based Ruddlesden-Popper Catalysts for the Oxidation of Urea and Small Alcohols

15.05–15.30

Keynote Talk 6 Prof. Carita Kvarnström

Electrochemical synthesis of copolymers containing porphyrine derivatives and their activity towards CO2

15.30–15.45

Oral talk 5 Prof. Bernardo Barbiellini

Positronium emission from materials for Li-ion batteries

15.45–16.00

Oral Talk 6 Dr. Stanislav Evlashin

The role of nitrogen and oxygen in the formation capacity of carbon materials


16.00–16.25

Break


Session 3: Electrochemistry of novel materials Chairs: P. Lund / E. Fedorovskaya

16.25–16.50

Keynote Talk 9 Prof. Cristina Flox

Nickel-Nitrogen active sites towards selective High-rate CO2-to-formate electroreduction

16.50–17.15

Keynote Talk 10 Prof. Jari Koskinen

Development of materials for electrochemical bio-sensing

17.15–17.30

Oral Talk 7 Dr. Stanislav Fedotov

Defects in olivine-type cathode materials for Li-ion batteries

17.30–17.45

Oral talk 8 Dr. Muhammad Asghar

Ceramic fuel cell fabrication trend from conventional methods to digital printing


Structure of graphitized films formed on the diamond surface under high-temperature annealing

A.V. Okotrub1, D.V. Gorodetskii1, Y.N. Palyanov2, A.L. Chuvilin3, L.G. Bulusheva1

1 – Nikolaev Institute of Inorganic Chemistry, SB RAS, 630090 Novosibirsk, Russia

2 – Sobolev Institute of Geology and Mineralogy SB RAS, 630090 Novosibirsk, Russia

3 – CIC nanoGUNE Consolider, E-20018 San Sebastian, Spain

spectrum@niic.nsc.ru

Diamond crystals with a facet size exceeding the size of the focus of the X-ray beam incident on the sample were synthesized by the HPHT method were heated to a temperature of 850 °C and 1250 °C for 15 minutes. Annealing of samples of single crystals was carried out in a high-vacuum chamber of the Russian-German laboratory at the BESSY II synchrotron source. XPS spectroscopy was used to study the structure of carbon layers on diamond faces of different symmetries and with thin layers of iron and nickel deposited on a diamond. A higher rate of graphitization of the (111) face is shown. From the data of the angular dependence of NEXAFS, the directionality of the sp2 carbon layers relative to the diamond surface is determined. The data obtained indicate a catalytic effect of the metal on the process of the formation of graphene structures. Transmission electron microscopy data demonstrate the characteristic size and misorientation of individual graphene layers for different symmetry of diamond faces.


Acknowledgement.This work was supported by the Russian Foundation for Basic Research, grant 19-03-00425.

Prof. Dr. Alexander Okotrub

Alexander Okotrub graduated from the Physics Department of Novosibirsk State University in 1980, specialized in the Chemical Physics. Since 1980, A. Okotrub worked as an intern-researcher at Nikolaev Institute of Inorganic Chemistry SB RAS (NIIC SB RAS) as post-graduate student, junior researcher, research associate, senior researcher, leading researcher and principal researcher. At present he is the head of the Laboratory of Physics Chemistry of Nanomaterials and the head of the Department of the Chemistry of Functional Materials of the NIIC SB RAS. He is professor in physical chemistry and leads the Laboratory of Carbon Nanomaterials at the Novosibirsk State University. In his work, an approach is used that combines methods for synthesizing carbon nanostructures (fullerenes, nanotubes, graphene, nanodiamonds, etc.), methods for their chemical modification and the creation of composite and hybrid structures, as well as methods for studying the structure and physicochemical properties of the produced materials. Considerable attention is paid to X-ray and photoelectron spectroscopy and quantum-chemical calculations for studying the electronic structure and properties of new materials. A. Okotrub published 360 scientific papers. He lectures on "Functional materials" for students of the Novosibirsk State University and "Materials and their properties" for post-graduate students of the NIIC SB RAS.

FC–CVD synthesis large diameter CNTs for transparent conductor applications

Qiang Zhang, Datta Sukanta, Hua Jiang, Esko I. Kauppinen

Department of Applied Physics, Aalto University School of Science, PO Box 15100, FI-00076 Aalto, Espoo, FINLAND

esko.kauppinen@aalto.fi

Many efforts have been devoted to increasing the conductivity of CNT TCFs made with the floating catalyst chemical vapor deposition (FC–CVD). However, intrinsic nanotube collisions in the aerosol process of FC–CVD lead to a tread-off between yield and performance, because bundling increases when increasing the yield i.e. production rate, with the bundling reducing the growth rate as well as increasing sheet resistance at the given film transmittance. Here, we report TCFs of large-diameter CNTs from methane-based FC–CVD overcoming the performance-yield tradeoff. Based on the Fe-C-S system, the double-wall CNTs (DWCNTs) with a mean diameter of 4.15 nm and a mean bundle length of 20 um have been synthesized via FC–CVD and directly deposited to form TCFs. After gold chloride solution doping, the TCFs have an excellent performance of 42 ohm/sq sheet resistance at 90 % transmittance. Unexpectedly, these high-performance DWCNTs films have an ultra-high yield i.e. production rate, being two orders of magnitude higher than that of SWCNT based TCFs with similar performance. Especially, these high-yield DWCNTs films contain ‘small’ bundles with around 50 % of CNTs being individual, which is completely different from other FC–CVD results for SWCNTs produced at much lower yield. Moreover, the large-diameter DWCNTs seem to flatten at the junctions, which may provide a larger contact area between the tubes and accordingly reduce the contact resistance. These unique features of large-diameter CNTs in ‘small’ bundles offer the route to obtain high-performance CNT TCFs with high yield. These results imply a new model with optimization windows for high-performance CNT TCFs with high yields and accordingly at reduced cost, and may accelerate the practical application of CNTs TCFs.



Professor Esko I. Kauppinen, PhD (Physics) is the Vice-Dean responsible for research, innovations and industry relationships at the Aalto University School of Science and Tenured Professor of Physics at the Department of Applied Physics. He has published more than 443 scientific journal papers e.g. in Nature Nanotechnology, NanoLetters, ACS Nano, Angewandte Chemie, Carbon, Energy and Environmental Sciences etc., having Hirsch-index over 52 and over 10 600 citations. He has given more than 120 keynote and invited conference talks and 220 talks at world leading companies and universities. He is considered one of the world leading authors in the area of single walled carbon nanotube synthesis, characterisation and thin film applications as well as in the gas phase synthesis of particles for inhalation drug delivery. He is the founding member of the companies Canatu Oy (http://www.canatu.com) and Teicos Pharma Oy (www.teicospharma.com).

Characterization of the distribution of multilayer carbon nanotubes in polymer composites using cyclic measurements of current-voltage characteristics

S. I. Moseenkov1, A. V. Zavorin1,2, and V. L. Kuznetsov1,2

1 Boreskov Institute of Catalysis SB RAS, Lavrentiev ave. 5, 630090 Novosibirsk, Russia

2 Novosibirsk State University, Pirogova str. 2, 630090 Novosibirsk, Russia

kuznet@catalysis.ru

In this paper we suggested a method for evaluating the uniformity of the nanotube distribution in the MWCNT-polymer composites based on sequential measurements of their current-voltage-conductivity (СVС) characteristics in a wide range of applied voltages (E, up to 103 V/mm). The MWCNTs in the composites form ohmic contacts (direct contacts between the nanotubes) and non-ohmic contacts (nanotubes in the contact are separated by several polymer chains). In our study we investigated composites with polyethylene and poly(methyl methacrylate) matrixes produced using MWCNTs with different aspect ratio (AR, 36 to 3000). In composites with uniform distribution of nanotubes (near the percolation threshold), large number of non-ohmic contacts results in high specific resistivity to 1013-1014 Ω・cm. This makes it difficult to measure the resistance at low E and impairs reproducibility of the results because partial transformation of contacts due to the heat release under electrical current takes place during the measurements already at E = 0.3 V/mm and current density 4・10-8 A/cm2. Furthermore, in the case of a high applied voltage, the decrease in resistance can reach 105 due to the formation of new ohmic contacts between nanotubes. The number of ohmic contacts in the composites also increases when the conductivity and I–V characteristics are measured due to irreversible transformation of non-ohmic contacts into ohmic contacts under the action of electrical thermal breakdown. This effect increases together with the number of non-ohmic contacts in the composite, which was demonstrated for composites modified by MWCNTs with AR values ranging from 36 to 3000. Therefore, the MWCNT percolation threshold largely depends on measurement conditions and on the sample's "history". We demonstrated that cyclic I–V measurements can be used to characterize the nature of the contacts between the nanotubes in polymer composites, in particular, to determine the presence of non-ohmic and ohmic contacts, transformations of the former into the latter, and to control the conductivity of MWCNT based composites using electric fields with a strength higher than 1 V/mm.

The suggested method for activation of isolated contacts between nanotubes can be used for controlled modification of MWCNT based composites for production of functional materials or devices on their basis (e.g. pressure sensors or deformation sensors, etc.) [1,2].


Acknowledgments. The work was carried out within the framework of the RFBR project No. 20-33-70120.


References:

[1] Moseenkov S.I., et al., Journal of Structural Chemistry. 2020. V.61. N4. P. 628–639.

[2] Moseenkov S.I., et al., eXPRESS Polymer Letters. 2019. V.13. N12. P. 1057–1070.

Vanusepiirang:
16+
Ilmumiskuupäev Litres'is:
16 aprill 2021
Kirjutamise kuupäev:
2020
Objętość:
183 lk 40 illustratsiooni
ISBN:
9780369404497
Õiguste omanik:
Aegitas

Selle raamatuga loetakse