| SUNDAY | |||||||
| 14.00-19.30 | registration | ||||||
| 20.00-20.10 | Opening address | ||||||
| 20.10-21.00 |
P. MONSON |
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| 21.00-23.00 | SOCIAL MIXER | ||||||
| MONDAY | TUESDAY | WEDNESDAY | THURSDAY | ||||
| SESSION I | SESSION IV | SESSION VI | SESSION IX | ||||
| chair |
K. E. Gubbins |
chair |
M. Schoen |
chair |
M. Dijkstra |
chair |
V. Molinero |
| 8.30-9.20 |
P. TARAZONA |
8.30-9.20 |
M. TELO DA GAMA |
8.30-9.20 |
H. TANAKA |
8.30-9.20 |
P. DEBENEDETTI |
| 9.20-9.40 |
J. Dyre |
9.20-9.40 |
M. Jardat |
9.20-9.40 |
R. Lustig |
9.20-9.40 |
A. Baranyai |
| 9.40-10.00 |
D. Kofke |
9.40-10.00 |
G. Kahl |
9.40-10.00 |
W. R. Smith |
9.40-10.00 |
F. Moucka |
| 10.00-10.20 |
G. Chuev |
10.00-10.20 |
C. Colina |
10.00-10.20 |
A. Patrykiev |
10.00-10.20 |
G. Lau |
| 10.20-10.50 | coffee | 10.20-10.50 | Coffee | 10.20-10.50 | coffee | 10.20-10.50 | coffee |
| SESSION II | SESSION V | SESSION VII | SESSION X | ||||
| chair |
L. Gelb |
chair |
J. de Pablo |
chair |
P. Tarazona |
chair |
B. Peters |
| 10.50-11.40 |
F. ESCOBEDO |
10.50-11.30 |
S. KLAPP |
10.50-11.40 |
B. PETERS |
10.50-11.40 |
M. DIJKSTRA |
| 11.40-12.00 |
A. Panagiotopoulos |
11.30-11.50 |
E. G. Noya |
11.40-12.00 |
P. Brumby |
11.40-12.00 |
M. Sweatman |
| 12.00-12.20 |
L. Noirez |
11.50-12.10 |
M. Schoen |
12.00-12.20 |
A. Malijevsky |
12.00-12.20 |
J. M. Bomont |
| 12.20-12.40 |
B. Laird |
12.10-12.25 |
A. Chialvo |
12.20-12.40 |
E. Bourasseau |
12.20-12.40 |
J. de Pablo |
| 12.30 | Lunch | ||||||
| 13.00 | lunch | 13.00 | lunch | 13.00 | lunch | ||
| 13.40 | CONFERENCE |
|
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| EXCURSION: Kutna Hora |
|
SESSION XI | |||||
|
|
|
UNESCO heritage site |
|
|
chair |
W. R. Smith |
|
|
18.00 |
dinner |
|
|
18.00 |
dinner |
15.00-15.50 |
V. MOLINERO |
|
|
|
19.30 |
Dinner |
|
|
15.50-16.10 |
C. Vega |
| SESSION III | SESSION VIII | 16.10-16.30 |
A. Striolo |
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| chair |
C. Vega |
chair |
F. Escobedo |
16.30-17.10 |
K. E. GUBBINS |
||
| 19.30-20.20 |
E. SEVICK |
20.45-22:30 | POSTER SESSION* | 19.30-20.20 |
L. GELB |
17.10-17.20 | closing remarks |
| 20.20-20.40 |
M. Jorge |
|
20.20-20.40 |
L. MacDowell |
|
||
| 20.40-21.00 |
K. Travis |
20.40-21.00 |
P. Kosovan |
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| 21.00-21.20 |
L. Leay |
|
21.00-21.20 |
D. Boda |
19.00-24.00 | BANQUET | |
| Debenedetti P. | One substance, two liquids? Computational studies of the phase behavior of supercooled water |
| Dijkstra M. | New surprises in hard spheres: Can we change the structure and phase behavior by activity and confinement? |
| Escobedo F. | Engineering entropy, order, and kinetics in colloids via molecular simulation |
| Gelb L. | Computational mechanics of aerogels |
| Gubbins K. E. | Theory of the thermodynamics of polar and associating liquids: A historical review |
| Klapp S. | Self-assembly and self-organization of dipolar colloids |
| Molinero V. | Crystallization of water |
| Monson P. | Some recent developments in modeling the dynamic behavior of confined fluids |
| Peters B. | Interfacial free energies, additives, and solute precipitate nucleation |
| Sevick E. | Non-equilibrium sampling applied to force spectroscopy of soft matter |
| Telo da Gama M. | Mixtures of patchy colloids: from equilibrium gels to non-equilibrium |
| Tanaka H. | Local structral ordering in liquids and their roles in glass transition and crystallization |
| Tarazona P. | Density Functional Theory for classical liquids: from non-local approximations to dynamical behaviour |
| Baranyai A. | A new polarizable and transferable potential for water and alkali and halide ions |
| Boda D. | Simulating Steady-State Transport with Local Equilibrium Monte Carlo |
| Bomont J. M. | Chasing the glass transition in soft-sphere model |
| Bourasseau E. | Surface Tension Calculations of Liquid Metals |
| Brumby P. | Structure and interfacial tension of a hard-rod fluid in planar confinement |
| Chialvo A. A. | Compounding effects of fluid confinement and surface strain on the wet-dry transition and dynamics of graphene-water systems |
| Chuev G | Extraction of site-site bridge functions from simulations as an inverse problem of integral equation theory of molecular liquid |
| Coray C. | Small molecules confined in porous polymeric materials |
| De Pablo J. | The role of sequence in protein-DNA interactions |
| Dyre J. | Isomorphs, hidden scale invariance, and quasiuniversality |
| Noya E. G. | Phase Behaviour and Self-Assembly of Inverse Patchy Colloids |
| Jardat M. | Diffusion of charged species in model charged porous media |
| Jorge M. | Mesoscale Modelling of the Synthesis of Nanoporous Silica Materials |
| Kahl G. | Flowers and grains: self-assembly scenarios of particles with heterogeneously charged surfaces |
| Kofke D. | Series Methods for Molecularly Based Fluid Properties Prediction |
| Kosovan P. | A hybrid Monte Carlo studies of branched weak polyelectrolytes |
| Laird B. | Solid-liquid interfacial premelting |
| Lau G. | Energies, entropies and surface tensions of planar, cylindrical and spherical water interfaces |
| Leay A. | The molecular segregation of tri-butyl phosphate in an organic diluent and its relevance to nuclear extraction processes |
| Lustig R. | Novel molecular simulation methodology of thermodynamic properties |
| MacDowell L. | Accelerated Convergence of the Real Space Ewald Summation |
| Malijevsky A. | Microscopic approach to interfacial phenomena at structured surfaces |
| Moucka F. | Efficient Multi-Particle-Move MC for polarizable water and electrolytes |
| Noirez L. | Discovery of Static Shear-Elasticity in Liquids |
| Panagiotopoulos A. | Stabilizing Colloidal Crystals by Leveraging Void Distributions |
| Patrykijew A. | On the impurity driven commensurate-incommensurate transitions in finite systems |
| Schoen M. | Self-assembly of colloids driven by disclinations in a nematic host fluid |
| Smith W. R. | Molecular simulations for specified enthalpy conditions and applications |
| Striolo A. | Aqueous Systems Under Confinement: Preferential Adsorption and Exotic Structures |
| Sweatman M. | Cluster formation in fluids with competing short-range and long-range interactions |
| Travis K. | Non-equilibrium molecular dynamics simulation of the Joule-Thomson throttling of a gas. |
| Vega C. | Freezing of water from computer simulations : Thermodynamic and Kinetic aspects |
