Data sets for "Structure and dynamics of aqueous NaCl solutions at high temperatures and pressures"

Fig1_EOS_MD … vs_Potter_v2.agr
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Figure 1 shows the equation of state for a solution of 5 molal NaCl in D2O.

Fig2_Fofq_Ti-Zr_cell_v3.agr
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Figure 2 shows the total structure factors F(Q) for solutions of 5 molal (a) Na^{nat}Cl in D2O and (b) Na^{37}Cl in D2O.

Fig3_Fofq_PE_press_v4.agr
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Figure 3 shows the total structure factors F(Q) for solutions of 5 molal (a) Na^{35}Cl in D2O and (b) Na^{mix}Cl in D2O.

Fig4_Gofr_v4.agr
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Figure 4 shows the total pair-distribution functions G(r) for solutions of 5 molal (a) Na^{35}Cl in D2O and (b) Na^{nat}Cl in D2O.

Fig5_Delta_fofq_v6.agr
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Figure 5 shows the difference functions Delta F_{Cl}(Q) for solutions of 5 molal NaCl in D2O as measured using (a) the PE press or (b) the Ti-Zr cell.

Fig6_Delta … Ti-Zr_cell_v3.agr
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Figure 6 shows the difference functions Delta G_{Cl}(r) for solutions of 5 molal NaCl in D2O as measured using the Ti-Zr cell.

Fig7_Delta … PE_press_v4.agr
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Figure 7 shows the difference functions Delta G_{Cl}(r) for solutions of 5 molal NaCl in D2O as measured using the Paris-Edinburgh press.

Fig8_Delta_gofr_focus_v2.agr
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Figure 8 shows the dependence of the difference function Delta G_{Cl}(r)-Delta G_{Cl}(0) on (a) temperature at 0.1 kbar versus (b) pressure at 423 K for a solution of 5 molal NaCl in D2O as measured using the Ti-Zr cell.

Fig9_Cl-X_gofrs_v3.agr
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Figure 9 shows the dependence of the simulated partial pair-distribution functions g_{ClD}(r) and g_{ClO}(r) on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig11_solvation_BAD_v4.agr
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Figure 11 shows the dependence of the simulated Cl-D-D, Cl-O-D and Na-O-M bond-angle distributions on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig13_Na-X_gofrs_v3.agr
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Figure 13 shows the dependence of the simulated partial pair-distribution functions g_{NaO}(r) and g_{NaD}(r) on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig14_Na-Cl_gofrs_v3.agr
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Figure 14 shows the dependence of the simulated partial pair-distribution functions g_{NaCl}(r), g_{NaNa}(r) and g_{ClCl}(r) on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig15_Na-Cl_speciation.agr
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Figure 15 shows the dependence of the fraction of Na^+ ions with zero, one, two or three nearest-neighbor Cl^- ions, as obtained from the simulations, on (a) temperature at 0 kbar versus (b) pressure at 423 K.

Fig16_NaNa_pairing_T.agr
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Figure 16 shows the temperature dependence of the fraction of sodium ion pairs that share the listed numbers of water molecules and/or chloride ions, as obtained from the simulations. The sodium ion separation is either (a) < 4.06 A or (b) < 4.9 A.

Fig21_Cl-D2O_sharing.agr
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Figure 21 shows the dependence of the fraction of chloride ion pairs obtained from the simulations that share the listed numbers of water molecules on (a) temperature at 0 kbar versus (b) pressure at 423 K.

Fig22_water_gofrs_v3.agr
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Figure 22 shows the dependence of the simulated partial pair-distribution functions g_{OD}(r), g_{DD}(r) and g_{OO}(r) on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig25_cage … elation_times_v6.agr
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Figure 25 shows the dependence of the residence time tau_{alpha}^{out} (alpha =Na or Cl) obtained from the simulations on (a) temperature at 0 kbar versus (b) pressure at 423 K.

Fig26_diffusion_coeffs_v2.agr
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Figure 26 shows the dependence of the self-diffusion coefficients D_{alpha} (alpha = Na, Cl or D2O) obtained from the simulations on (a) temperature at 0 kbar versus (b) pressure at 423 K.

Fig30_cageNaO-comp_v2.agr
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Figure 30 gives a comparison of the simulated cage-correlation functions C^{in-out}_{Na}(t), C^{out}_{Na}(t) and [C^{out}_{Na}(t)]^2 describing the exchange of water molecules at the Na^+ ion for several state points.

Fig31_alpha_vs_T_and_p_v3.agr
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Figure 31 shows the dependence of the ratio tau_{Na}^{out} / tau_{Na}^{in-out} obtained from the simulations for water exchange at the Na^+ ion on temperature at 0 kbar versus pressure at 423 K.

FigS1_Delta_gofr_MD_v2.agr
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Figure S1 shows the pressure dependence of the simulated difference function Delta G_{Cl}(r)-Delta G_{Cl}(0) for a solution of 5 molal NaCl in D2O at 423 K.

FigS4_Na-Cl_running_CN_v2.agr
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Figure S4 shows the dependence of the running coordination number n_{NaCl} = n_{ClNa} obtained from the simulations on (a) temperature at 0 kbar versus (b) pressure at 423 K.

FigS5_cation_BAD.agr
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Figure S5 shows the dependence of the simulated Na-Cl-Na and Cl-Na-Cl bond angle distributions on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

FigS6_Na-O-Na_BADs.agr
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Figure S6 shows the dependence of the simulated Na-O-Na bond angle distribution on (a) temperature at 0 kbar versus (b) pressure at 423 K.

FigS7_O-O_running_CN_v2.agr
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Figure S7 shows the dependence of the running coordination number n_{OO} obtained from the simulations on (a) temperature at 0 kbar versus (b) pressure at 423 K.

FigS8a_cageoutNaO-temperature.agr
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Figure S8(a) shows the temperature dependence of the simulated cage correlation function C^{out}_{Na}(t) at 0 kbar.

FigS8b_cageoutClH-temperature.agr
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Figure S8(b) shows the temperature dependence of the simulated cage correlation function C^{out}_{Cl}(t) at 0 kbar.

FigS9a_cageoutNaO-pressure.agr
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Figure S9(a) shows the pressure dependence of the simulated cage correlation function C^{out}_{Na}(t) at 423 K.

FigS9b_cageoutClH-pressure.agr
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Figure S9(b) shows the pressure dependence of the simulated cage correlation function C^{out}_{Cl}(t) at 423 K.

FigS12_FT_of_Cl-O_Cl-D.agr
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Figure S12 shows the temperature and pressure dependence of the contributions to the Delta F_{Cl}(Q) functions from A[S_{ClD}(Q)-1] and B[S_{ClO}(Q)-1] where A = 11.16 mbarn and B = 4.86 mbarn.

Fig10_Na_and_Cl_CNs_v4.agr
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Figure 10 shows the dependence of the coordination numbers n_{NaO}, n_{ClD}, n_{NaCl} = n_{ClNa}, n_{Na} = n_{NaO} + n_{NaCl} and n_{Cl} = n_{ClD} + n_{ClNa} obtained from the simulations on (a) temperature at 0 kbar versus (b) pressure at 423 K.

Fig18_NaNa_pairing_p.agr
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Figure 18 shows the pressure dependence obtained from the simulations of the fraction of Na^+ ion pairs that share the listed numbers of water molecules and/or chloride ions.

Fig19_anion_BAD_v3.agr
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Figure 19 shows the dependence of the simulated O-O-O, O-Cl-O and Cl-O-Cl bond-angle distributions on (left hand column) temperature at 0 kbar versus (right hand column) pressure at 423 K.

Fig23_OOD_BAD_v2.agr
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Figure 23 shows the dependence of the simulated O-O-D bond-angle distribution on (a) temperature at 0 kbar versus (b) pressure at 423 K.

FigS2a_Cl-D_running_CN_v3.agr
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Figure S2a shows the dependence of the running coordination number n_{ClD} obtained from the simulations on (a) temperature at 0 kbar versus (c) pressure at 423 K.

FigS2b_Cl-O_running_CN_v3.agr
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Figure S2b shows the dependence of the running coordination number n_{ClO} obtained from the simulations on (b) temperature at 0 kbar versus (d) pressure at 423 K.

FigS3a_Na-O_running_CN_v3.agr
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Figure S3a shows the dependence of the running coordination number n_{NaO} obtained from the simulations on (a) temperature at 0 kbar versus (c) pressure at 423 K.

FigS3b_Na-D_running_CN_v4.agr
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Figure S3b shows the dependence of the running coordination number n_{NaD}/2 obtained from the simulations on (b) temperature at 0 kbar versus (d) pressure at 423 K.

Fig28a_H-bond_or_not_T_v3.agr
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Figure 28a shows the dependence of the coordination numbers n_{ClO} and n_{OO} for hydrogen-bonded versus non hydrogen-bonded configurations obtained from the simulations on temperature at 0 kbar.

Fig28b_H-bond_or_not_p_v3.agr
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Figure 28b shows the dependence of the coordination numbers n_{ClO} and n_{OO} for hydrogen-bonded versus non hydrogen-bonded configurations obtained from the simulations on pressure at 423 K.

Philip Salmon
University of Bath

0000-0001-8671-1011

Anita Zeidler
University of Bath

0000-0001-6501-8525

Mathieu Salanne
Work Package Leader
Sorbonne Université

0000-0002-1753-491X

Collection date(s):

From 27 February 2013 to 24 July 2021

Engineering and Physical Sciences Research Council (EPSRC)
https://doi.org/10.13039/501100000266

Network Structures: from Fundamentals to Functionality
EP/J009741/1

Institut Laue-Langevin

Structure of Geological Fluids
Collaboration Agreement ILL-1353.1

University of Bath
https://doi.org/10.13039/501100000835

Structure of Geological Fluids
Collaboration Agreement ILL-1353.1

Royal Society
https://doi.org/10.13039/501100000288

Dorothy Hodgkin Research Fellowship - Rational Design of Glassy Materials with Technological Applications
DH140152