Structural studies of complex liquids

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Details of project

Identifier

83529

Type

Principal investigator

Pusztai, László

Title in Hungarian

Komplex folyadékok szerkezetvizsgálata

Title in English

Structural studies of complex liquids

Keywords in Hungarian

folyadék; szerkezet; diffrakció; EXAFS; számítógépes szimuláció;

Keywords in English

liquid; structure; diffraction; EXAFS; computer simulation

Discipline

Physical Chemistry and Theoretical Chemistry (Council of Physical Sciences)	100 %
Ortelius classification: Physical chemistry

Panel

Chemistry 1

Department or equivalent

Complex Fluids Department (Wigner Research Centre for Physics)

Participants

Harsányi, Ildikó
Jóvári, Pál
Mile, Viktória
Pothoczki, Szilvia
Szakályné Dr. Gereben, Orsolya
Temleitner, László

Starting date

2011-02-01

Closing date

2015-12-31

Funding (in million HUF)

15.206

FTE (full time equivalent)

12.73

state

closed project

Summary in Hungarian

Átfogó vizsgálatokat kívánunk végezni a komplex molekuláris folyadékok szerkezetét illetően, kezdve a tiszta víz különböző termodinamikai állapotain, az alkáli- és alkáliföldfém-halogenidek (pl. a számos biológiai folyamatban kulcsfontosságú kalcium-klorid) vizes oldatán keresztül fontos szerves anyagok (alkoholok, aminosavak) vizes oldatáig. Minden egyes említett folyadékban számos, a szerkezetre vonatkozó alapkérdés tisztázatlan mind a mai napig: Hogyan jellemezhetjük a molekulák kölcsönös orientációit? Miként befolyásolja ezt a molekulaszerkezet, illetve annak kismértékű megváltoztatása? Hogyan érthetjük meg az ionok és az oldott molekulák hidrátburkának viselkedését? Milyen mértékben alkalmazhatók a szerkezet leírására a jelenleg használatos klasszikus kölcsönhatási potenciálok?
Az általunk megvalósítandó megközelítés, melynek során (többek között) a fenti kérdésekre keresünk megnyugtató választ, magában foglalja a röntgen- és neutrondiffrakció, valamint a röntgen-abszorpció (ezen belül elsősorban az EXAFS) kísérleti módszereket. Olyan, több tízezer részecskét tartalmazó szerkezeti modelleket fogunk készíteni a Reverse Monte Carlo (RMC) számítógépes eljárás segítségével, amelyek az összes felsorolt kísérleti eredménnyel (hibán belül) konzisztensek lesznek. Végül megkíséreljük a széles körben alkalmazott (Monte Carlo és molekuláris dinamikai) számítógépes szimulációkból kapott szerkezeti információt is szerkezeti modelljeinkbe integrálni, felhasználva a pályázók által frissen kidolgozott eljárást. Magától értetődően e szerkezetek megbízhatóbbak lesznek a vizsgált molekuláris folyadékok jelenleg ismert összes szerkezeti modelljénél.

Summary

We wish to carry out comprehensive investigations concerning the structure of molecular liquids, starting from the various themodynamic states of pure water, via aqueous solutions of alkaline earth halides (including calcium chloride; calcium ions in solution have vital roles in quite a few biological processes) to aqueous solutions of important organic compounds (such as alcohols and amino acids). In every single liquid mentioned previously there are a number of problems concerning their structure that need to be clarified urgently: How can we characterise the mutual orientations of molecules? How are these orientations influenced by (small changes of) the molecular structure? How can we understand the behaviour of the hydration spheres of ions and larger molecules? To what extent can we rely on structural information provided by computer simulations using classical interatomic potentials?
Our approach, by which we seek answers to (among others) the above questions, will involve X-ray and neutron diffraction, as well as X-ray absorption (mainly extended X-ray absorption fine structure, EXAFS) experiments. Structural models, containing tens of thousands of particles, will be prepared by using the Reverse Monte Carlo (RMC) modelling technique, so that a single (set of) model(s) will be consistent with results of all experiments listed above. Finally, we will make an attempt for integrating structural information obtained via widely spread (Monte Carlo and molecular dynamics) computer simulation techniques into our structural models (for this purpose, we will apply a procedure introduced recently by the proposers). Clearly, such models will be superior to all existing models of the structure of molecular liquids.

Final report

Results in Hungarian

Molekuláris folyadékok és amorf szilárd anyagok mikroszkópikus szerkezetét tanulmányoztuk neutron- és röntgendiffrakciós kísérleti módszerekkel, illetve az azokat követő Reverse Monte Carlo (RMC) számítógépes modellezési eljárással. Az amorf anyagokra minden esetben alkalmaztunk EXAFS eredményeket is, így többször akár 6-7 kísérleti adatsorral konzisztens szerkezeteket állítottunk elő. A vizsgált folyadékok között találjuk a tiszta vizet, egyszerű tiszta alkoholokat (metanol, etanol, propanol) valamint ezek vízzel alkotott keverékeit, továbbá egyszerű sók (pl. LiCl, CsCl) tömény vizes oldatait. A felsorolt rendszerekre molekuláris dinamikai (MD) számítógépes szimulációkat is végeztünk: ezen összetett megközelítéssel (diffrakció+MD+RMC) elsősorban az említett folyadékokban kialakuló hidrogénkötéses hálózatokat jellemeztük. Az asszociáló folyadékok tanulmányozásán kívül folytattuk, majd egy nagyobb lélegzetű műben összegeztük a tetraéder alakú molekulákat tartalmazó folyadékok (pl. széntetraklorid, kloroform) szerkezetét illető vizsgálatainkat: bemutattuk a kíséleti és számítógépes módszerek azon kombinációját, amelyekkel a molekulák kölcsönös elhelyezkedése (azaz az 'orientációs korrelációk') a lehető legrészletesebben jellemezhetők.

Results in English

We have studied the microscopic structure of molecular liquids and amorphous solids by neutron and X-ray diffraction experiments and subsequently, by Reverse Monte Carlo (RMC) computer modeling methods. For amorphous materials EXAFS results have always been applied, too, so that in several cases, it was possible to prepare structures that were consistent with 6 to 7 experimental datasets. Among others, we have investigated the structures of pure water, pure low alcohols (methanol, ethanol and propanol), as well as their mixtures with water, and concentrated aqueous solutions of simple salts (e.g., LiCl, CsCl). For the systems just listed, molecular dynamics (MD) computer simulations have also been conducted: via this complex approach (diffraction+MD+RMC) primarily the hydrogen bonded networks present in these liquids have been characterized. Apart from studying associating liquids, we have followed on and later, in the framework of a comprehensive review article, summarized our investigations concerning liquids that contain molecules with a tetrahedral shape (e.g., carbon tetrachloride or chloroform): we have presented a combination of experimental and computer-based methods by which the mutual arrangements of molecules (i.e., the 'orientational correlations') may be characterized to minute details.

Full text

https://www.otka-palyazat.hu/download.php?type=zarobeszamolo&projektid=83529

Decision

Yes

List of publications

Orsolya Gereben, László Pusztai: Extension of the invariant environment refinement technique + reverse Monte Carlo method of structural modelling for interpreting experimental structure factors: ..., J. Chem. Phys. 135, 084111/1-7, 2011

Orsolya Gereben, László Pusztai: System size and trajectory length dependence of the static structure factor and the diffusion coefficient as calculated from molecular dynamics simulations: ..., J. Mol. Liq. 161, pp. 36-40, 2011

Orsolya Gereben, László Pusztai: On the accurate calculation of the dielectric constant from molecular dynamics simulations: the case of SPC/E and SWM4-DP water, Chem. Phys. Letts. 507, 8083, 2011

Aleksander Vrhovsek, Orsolya Gereben, Andrej Jamnik, László Pusztai: Hydrogen bonding and molecular aggregates in liquid methanol, ethanol and propanol, J. Phys. Chem. B 115, pp. 13473-13488, 2011

Ildikó Harsányi, László Temleitner, Brigitte Beuneu, László Pusztai: Neutron and X-ray diffraction measurements on highly concentrated aqueous LiCl solutions, J. Mol. Liq. 165, pp. 94-100, 2012

Ildikó Harsányi, Philippe A. Bopp., Aleksander Vrhovsek, László Pusztai: On the hydration structure of LiCl aqueous solutions: a Reverse Monte Carlo based combination of diffraction data and Molecular Dynamics simulations, J. Mol. Liq. 158, pp. 61-67, 2011

Szilvia Pothoczki, László Temleitner, László Pusztai: Detailed intermolecular structure of molecular liquids containing slightly distorted tetrahedral molecules with C3v symmetry: chloroform, bromoform and methyl-iodide, J. Chem. Phys. 134, 044521/1-8, 2011

Ohara K, Temleitner L, Sugimoto K, Kohara S, Matsunaga T, Pusztai L, Itou M, Ohsumi H, Kojima R, Yamada N, Usuki T, Fujiwara A, Takata M: he roles of the Ge-Te core network and the Sb-Te pseudo network during rapid nucleation-dominated crystallization of amorphous Ge2Sb2Te5, Advanced Functional Materials; 22, 2251-2257, DOI: 10.1002/adfm.201102940, 2012

Gereben O, Kohara S, Pusztai L: The liquid structure of some food aromas: joint X-ray diffraction, all-atom Molecular Dynamics and Reverse Monte Carlo investigations of dimethyl sulfide, dimethyl disulf, Journal of Molecular Liquids; 169, 63-73, 2012

Antipas GSE, Temleitner L, Karalis K, Kohara S, Pusztai L, Xenidis A: A containerless study of short-range order in high-temperature Fe-Si-Al-Ca-Mg-Cr-Cu-Ni oxide systems, Journal of Molecular Structure 1019, 151-158, 2012

Steinczinger Zs, Pusztai L: An independent, general method for checking consistency between diffraction data and partial radial distribution functions derived from them: the example of liquid water, Condensed Matter Physics 15, 23606:1-6, 2012

Gereben O, Pusztai L: Molecular Conformations and the Liquid Structure in Bis(methylthio)methane and Diethyl Sulfide: Diffraction Experiments vs Molecular Dynamics Simulations, J. Phys. Chem. B, 116, pp. 9114-9121, 2012

Mile V, Gereben O, Kohara S, Pusztai L: On the Structure of Aqueous Cesium Fluoride and Cesium Iodide Solutions: Diffraction Experiments, Molecular Dynamics Simulations and Reverse Monte Carlo Modeling, J. Phys. Chem. B, 116, pp. 9758-9767, 2012

Gereben O, Pusztai L: RMC_POT, a computer code for Reverse Monte Carlo modeling the structure of disordered systems containing molecules of arbitrary complexity, Journal of Computational Chemistry, 2012

Temleitner L, Pusztai L, Rubio-Arroyo MF, Aguilar-Lopez S, Klimova T, Pizio O: Microscopic and mesoscopic structural features of an activated carbon sample, prepared from sorghum via activation by phosphoric acid, Materials Research Bulletin, 47, pp. 4409-4413, 2012

Harsányi I, Pusztai L: Hydration structure in concentrated aqueous lithium chloride solutions: A reverse Monte Carlo based combination of molecular dynamics simulations and diffraction data, J. Chem. Phys. 137, 204503/1-9, 2012

Pothoczki Sz, Temleitner L, Pusztai L: Determination of molecular orientational correlations in disordered systems from diffraction data, Advances in Chemical Physics; 150, pp. 143-168, 2012

Voleska I, Akola J, Jóvári P, Gutwirth J, Wagner T, Yannopoulos SN, Jones RO: Structure, electronic, and vibrational properties of glassy Ga11Ge11Te78: Experimentally constrained density functional study, Phys Rev B; 86, 094108/1-9, 2012

Kaban I, Jóvári P, Wang R-P, Luther-Davies B, Mattern N, Eckert J: Structural investigations of Ge5AsxSe95-x and Ge15AsxSe85-x glasses using x-ray diffraction and extended x-ray fine structure spectroscopy, J Phys.: Condensed Matter; 24, 385802:1-7, 2012

Chrissanthopoulos A, Jóvári P, Kaban I, Gruner S, Kavetskyy T, Borc J, Wang W, Ren J, Chen G, Yannopoulos SN: Structure of AgI-doped Ge–In–S glasses: Experiment, reverse Monte Carlo modelling, and density functional calculation, J Solid State Chem; 192, 7-15, 2012

Amir Hossein Taghvaei, Mihai Stoica, Mohsen Samadi Khoshkhoo, Ivan Kaban, Jozef Bednarčik, Pál Jóvári, Kamal Janghorban, Jürgen Eckert: DSC, XRD and TEM characterization of glassy Co40Fe22Ta8B30 alloy with very high thermal stability, Materials Letters, Volume 93, Pages 322-325, 2013

P. Jóvári, Y. Sutou, I. Kaban, Y. Saito, J. Koike: Fourfold coordinated Te atoms in amorphous GeCu2Te3 phase change material, Scripta Materialia, Volume 68, Issue 2, Pages 122-125, 2013

Antipas GSE, Temleitner L, Karalis K, Pusztai L, Xenidis A: Atomic order and cluster energetics of a 17 wt% Si-based glass versus the liquid phase, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454206. 7 p. , 2013

Charpentier F, Starecki F, Doualan JL, Jóvári P, Camy P, Troles J, Belin S, Bureau B, Nazabal V: Mid-IR luminescence of Dy3+ and Pr3+ doped Ga5Ge20Sb10S(Se)65 buUR - glasses and fibers, MATERIALS LETTERS 101: pp. 21-24., 2013

Gereben O, Pusztai L: Conformational analysis of bis(methylthio)methane and diethyl sulfide molecules in the liquid phase: reverse Monte Carlo studies using classical interatomic potential fun, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454201. 13 p., 2013

Gereben O, Pusztai L: The liquid structure of tetrachloroethene: Molecular dynamics simulations and reverse Monte Carlo modeling with interatomic potentials, JOURNAL OF CHEMICAL PHYSICS 139:(16) Paper 164509. 10 p., 2013

Harsanyi I, Pusztai L, Jovari P, Beuneu B: Acidic properties of aqueous phosphoric acid solutions: a microscopic view, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454215. 5 p., 2013

Jóvári P, Piarristeguy A, Escalier R, Kaban I, Bednarčik J, Pradel A: Short range order and stability of amorphous GexTe 100-x alloys (12 ≤ x ≤ 44.6), JOURNAL OF PHYSICS-CONDENSED MATTER 25:(19) Paper 195401. , 2013

Kaban I, Jóvári P, Kokotin V, Shuleshova O, Beuneu B, Saksl K, Mattern N, Eckert J, Greer AL: Local atomic arrangements and their topology in Ni-Zr and Cu-Zr glassy and crystalline alloys, ACTA MATERIALIA 61:(7) pp. 2509-2520. , 2013

Pothoczki S, Temleitner L, Pardo LC, Cuello GJ, Rovira-Esteva M, Tamarit JL: Comparison of the atomic level structure of the plastic crystalline and liquid phases of CBr2Cl2: Neutron diffraction and reverse Monte Carlo modelling, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454216. 14 p. , 2013

Rátkai L, Kaban I, Wágner T, Kolář J, Valková S, Voleská I, Beuneu B, Jóvári P: Silver environment and covalent network rearrangement in GeS3-Ag glasses, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454210. , 2013

Shimakura H, Kawakita Y, Ohara K, Pusztai L, Wakisaka Y, Takeda S: Inter-molecular correlations in liquid Se2Br2, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454221. 8 p., 2013

Steinczinger Z, Pusztai L: Comparison of the TIP4P-2005, SWM4-DP and BK3 interaction potentials of liquid water with respect to their consistency with neutron and X-ray diffraction data of pure wat, CONDENSED MATTER PHYSICS 16:(4) Paper 43604. 8 p., 2013

Temleitner L, Pusztai L: The origin of diffuse scattering in crystalline carbon tetraiodide, JOURNAL OF PHYSICS-CONDENSED MATTER 25:(45) Paper 454209. 6 p., 2013

Karalis K , Temleitner L , Antipas GSE , Pusztai L , Xenidis A: Experimentally constrained atomic order probing of a Si-Al composite glass, PHILOSOPHICAL MAGAZINE 94:(8) pp. 792-800. , 2014

Kohara S , Tajiri H , Song CH , Ohara K , Temleitner L , Sugimito K , Fujiwara A , Pusztai L , Usuki T , Hosokawa S , Benino Y , Kitamura N , Fukumi K: Anomalous x-ray scattering studies of functional disordered materials, JOURNAL OF PHYSICS-CONFERENCE SERIES 502:(1) Paper 012014. 6 p. , 2014

Pothoczki S , Temleitner L , Pusztai L: The structure of PX3 (X = Cl, Br, I) molecular liquids from X-ray diffraction, molecular dynamics simulations, and reverse Monte Carlo modeling, JOURNAL OF CHEMICAL PHYSICS 140:(5) Paper 054504. 9 p. , 2014

Temleitner L.: Structure determination of liquid carbon tetrabromide via a combination of x-ray and neutron diffraction data and Reverse Monte Carlo modelling, JOURNAL OF MOLECULAR LIQUIDS 197: pp. 204-210. , 2014

Kaban I , Jóvári P , Waske A , Stoica M , Bednarčik J , Beuneu B , Mattern N , Eckert J: Atomic structure and magnetic properties of Fe-Nb-B metallic glasses, JOURNAL OF ALLOYS AND COMPOUNDS 586:(Suppl1) pp. S189-S193. , 2014

Jóvári P , Lucas P , Yang Z , Bureau B , Kaban I , Beuneu B , Bednarčik J: Short-Range Order in Ge-As-Te Glasses, JOURNAL OF THE AMERICAN CERAMIC SOCIETY 97:(5) pp. 1625-1632., 2014

Akola J , Jovari P , Kaban I , Voleska I , Kolar J , Wagner T , Jones RO: Structure, electronic, and vibrational properties of amorphous AsS2 and AgAsS2: Experimentally constrained density functional study, PHYSICAL REVIEW B CONDENSED MATTER AND MATERIALS PHYSICS 89:(6) Paper 064202. 9 p. , 2014

Gereben O, Pusztai L: Understanding the structure of molecular liquids via combinations of molecular dynamics simulations and Reverse Monte Carlo modeling: Handling information deficiency, Journal of Non-Crystalline Solids 407, pp. 213–219, 2015

Gereben O, Pusztai L: Investigation of the Structure of Ethanol/Water Mixtures by Molecular Dynamics Simulation I: Analyses Concerning the Hydrogen-Bonded Pairs, Journal of Physical Chemistry B; 119, pp 3070–3084, 2015

Gereben O: Ring structure analysis of ethanol–water mixtures, J. Mol. Liq. 211, Pages 812-820, 2015

Gereben O: Lacunarity analysis of atomic configurations: Application to ethanol-water mixtures, Phys. Rev. E 92, 033305, 2015

Sanchez V, Noya EG, Temleitner L, Pusztai L: Reverse Monte Carlo modeling: the two distinct routes of calculating the experimental structure factor, Journal of Molecular Liquids; 207, pp. 211-215, 2015

Galicia-Andres E, Pusztai L, Temleitner L, Pizio O: Microscopic structure of methanol–water mixtures: Synchrotron X-ray diffraction experiments and molecular dynamics simulations over the entire composition range, Journal of Molecular Liquids; 209, pp. 586-595, 2015

Galicia-Andres E, Dominguez H, Pusztai L, Pizio O: Composition dependence of thermodynamic, dynamic and dielectric properties of water–methanol model mixtures. Molecular dynamics simulation results with the OPLS-AA model for methanol, J. Mol. Liq. Volume 212, Pages 70-78, 2015

Galicia-Andres E, Dominguez H, Pusztai L, Pizio O: On the composition dependence of thermodynamic, dynamic and dielectric properties of water-methanol model mixtures. Molecular dynamics simulation results, Condensed Matter Physics, vol. 18, No. 4, p. 43602, 2015

Pothoczki Sz, Temleitner L, Pusztai L: Structure of Neat Liquids Consisting of (Perfect and Nearly) Tetrahedral Molecules, Chemical Reviews; 115, No. 24, pp 13308–13361, 2015

A. A. Piarristeguy, M. Micoulaut, R. Escalier, P. Jóvári, I. Kaban, J. van Eijk, J. Luckas, S. Ravindren, P. Boolchand and A. Pradel: Structural singularities in GexTe100−x films, J. Chem. Phys. 143, 074502, 2015

I. Pethes, I. Kaban, R-P Wang, B. Luther-Davies, P. Jóvári: Short range order in Ge-As-Se glasses, Journal of Alloys and Compounds 623, 454, 2015

I. Pethes, R. Chahal, V. Nazabal, C. Prestipino, A. Trapananti, C. Pantalei, B. Beuneu, B. Bureau, P. Jóvári: Short range order in Ge-Ga-Se glasses, J. Alloys and Compounds 651, 578-584, 2015

I. Kaban, P. Jóvári, B. Escher, D. T. Tran, G. Svensson, M.A. Webb, T. Regier, V. Kokotin, B. Beuneu, T. Gemming, J. Eckert: Atomic structure and formation of CuZr-Al bulk metallic glasses and composites, Acta Materialia, 100, 369-376, 2015

Events of the project

2013-03-13 14:29:08

Résztvevők változása

2013-01-22 14:36:12

Kutatóhely váltás

A kutatás helye megváltozott. Korábbi kutatóhely: SZFI - Neutronfizikai Osztály (MTA Wigner Fizikai Kutatóközpont), Új kutatóhely: SZFI - Komplex Folyadékok Osztály (MTA Wigner Fizikai Kutatóközpont).

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