Water Structure and Science References 1601 1700

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S. Sudo and S. Yagihara, Universality of separation behavior of relaxation processes in supercooled aqueous
solutions as revealed bybroadband dielectric measurements, J. Phys. Chem. B 113 (2009) 11448-11452. [Back]
L. Montagnier, J. Aïssa, S. Ferris, J.-L. Montagnier, C. Lavallée, Electromagnetic signals are produced by aqueous nanostructures derived from bacterial DNA sequences, Interdiscip. Sci. Comput. Life Sci. 1 (2009) 81-90. L. Montagnier, J. Aissa, E. Del Giudice, C. Lavallee, A. Tedeschi and G. Vitiello, DNA waves and water, J. Phys.: Conf. Ser. 306 (2011) 012007, arXiv:1012.5166v1 [q-bio.OT]. [Back, 2, 3]
D. Banerjee, S. N. Bhat, S. V. Bhat and D. Leporini, ESR evidence for 2 coexisting liquid phases in deeply supercooled bulk water. Proc. Nat. Acad. Sci. 106 (2009) 11448-11453. [Back]
(a) C. Huang, K. T. Wikfeldt, T. Tokushima, D. Nordlund, Y. Harada, U. Bergmann, M. Niebuhr, T. M. Weiss, Y. Horikawa, M. Leetmaa, M. P. Ljungberg, O. Takahashi, A. Lenz, L. Ojamäe, A. P. Lyubartsev, S. Shin, L. G. M. Pettersson and A. Nilsson, The inhomogeneous structure of water at ambient conditions, Proc. Nat. Acad. Sci. 106 (2009) 15214-15218; (b) F. Mallamace, The liquid water polymorphism, Proc. Nat. Acad. Sci. 106 (2009) 15097-15098; but see A. K. Soper, J. Teixeira, and T. Head-Gordon, Is ambient water inhomogeneous on the nanometer-length scale? Proc. Nat. Acad. Sci. 107 (2010) E44. [Back, 2]
Y. Yonetani and H. Kono, Sequence dependencies of DNA deformability and hydration in the minor groove, Biophys. J. 97 (2009) 1138-1147. [Back]
Y. Zhang and P. S. Cremer, The inverse and direct Hofmeister series for lysozyme, Proc. Nat. Acad. Sci. 106 (2009) 15249-15253. [Back]
C. S. Tian and Y. R. Shen, Structure and charging of hydrophobic material/water interfaces studied by phase-sensitive sum-frequency vibrational spectroscopy, Proc. Nat. Acad. Sci. 106 (2009) 15148-15153.
C. W. C Kendall, A. Esfahani and D. J. A .Jenkins, The link between dietary fibre and human health, Food Hydrocolloids 24 (2010) 42-48. [Back]
M. Gardner, The fantastic combinations of John Conway's new solitaire game "life" Scientific American 223 (1970) 120-123. [Back]
Discussion based on private communication with authors B. Vybiral and P. Voracek (2009). [Back]
K. Szalewicz, C. Leforestierand A. van der Avoird, Towards the complete understanding of water by a first-principles computational approach, Chem. Phys. Lett. 482 (2009) 1-14. [Back]
D. C. Malaspina, J. A. Rodriguez Fris, G. A. Appignanesi and F. Sciortino, Identifying a causal link between structure and dynamics in supercooled water, Europhys. Lett. 88 (2009) 16003; G. A. Appignanesi, J. A. Rodriguez Fris and F. Sciortino, Evidence of a two-state picture for supercooled water and its connections with glassy dynamics, Eur. Phys. J. E 29 (2009) 305-310. [Back]
Y. Fan, X. Chen, L. Yang, P.l S. Cremer and Y. Q. Gao, On the structure of water at the aqueous/air interface, J. Phys. Chem. B 113 (2009) 11672-11679. [Back]
R. N. Tsenkova, l. K. Iordanova, K. Toyoda and D. R. Brown, Prion protein fate governed by metal binding,
Biochem. Biophys. Res. Comm. 325 (2004) 1005-1012. [Back]
(a) R. Tsenkova, AquaPhotomics: water absorbance pattern as a biological marker for disease diagnosis and disease understanding, NIR News 18:2 (2007) 15-17; R. Tsenkova, Aquaphotomics: extended water mirror approach reveals peculiarities of prion protein alloforms, NIR News 18:6 (2007) 14-17;(b) R. Tsenkova, Aquaphotomics: acquiring spectra of various biological fluids of the same organism reveals the importance
of water matrix absorbance coordinates and the aquaphotome for understanding biological phenomena, NIR News 19:1 (2008) 7-9; R. Tsenkova, Aquaphotomics: the extended water mirror effect explains why small concentrations of protein in solution can be measured with near infrared light, NIR News 19:4 (2008) 12-13; (c) R. Tsenkova, Aquaphotomics workshop at 2008 IDRC in Chambersburg, NIR News 20:6 (2009) 5-8; (see also [1842 ]). [Back]
H.-H. Limbach, P. M. Tolstoy, N. Pérez-Hernández, J. Guo, I. G. Shenderovich and G. S. Denisov, OHO Hydrogen bond geometries and NMR chemical shifts: from equilibrium structures to geometric H/D isotope effects, with
applications for water, protonated water, and compressed ice, Israel J. Chem. 49 (2009) 199-216. [Back]
A.-P. E. Kunz and W. F. van Gunsteren, Development of a nonlinear classical pPolarization model for liquid water and aqueous solutions: COS/D, J. Phys. Chem. A 113 (2009) 11570-11579. [Back]
K. Ohgaki, N. Q. Khanh, Y. Joden, A. Tsuji and T. Nakagawa, Physicochemical approach to nanobubble solutions, Chem. Eng. Sci. 65 (2010) 1296-1300. [Back]
O. Loboda and V. Goncharuk, Theoretical study on icosahedral water clusters, Chem. Phys. Lett. 484 (2010) 144-147. [Back, 2, 3]
(a) S. Baumgartner, M. Wolf, P. Skrabal, F. Bangerter, P. Heusser, A. Thurneysen and U. Wolf, High-field ¹H T₁ and T₂ NMR relaxation time measurements of H₂O in homeopathic preparations of quartz, sulfur, and copper sulfate, Naturwissenschaften 96 (2009)1079-1089;(b) U. Wolf, M. Wolf, P. Heusser, A. Thurneysen and S. Baumgartner, Homeopathic preparations of quartz, sulfur and copper sulfate assessed by UV-spectroscopy, eCAM (2009) doi:10.1093/ecam/nep036; (c) J.-L. Demangeat, NMR relaxation evidence for solute-induced nanosized superstructures in ultramolecular aqueous dilutions of silica–lactose, J. Mol. Liquids 155 (2010) 71-79. [Back]
K. R. Hirsch and W. B. Holzapfel, Symmetric hydrogen bonds in ice X, Phys. Lett. A 101 (1984) 142-144. [Back]
I. A. Brownlee, The physiological roles of dietary fibre, Food Hydrocoll. 25 (2011) 238-250. [Back]
D. Jouanneau, M. Guibet, P. Boulenguer, J. Mazoyer, M. Smietana and W. Helbert, New insights into the structure of hybrid κ-/μ-carrageenan and its alkaline conversion, Food Hydrocoll. 24 (2010) 452-461 . [Back]
L. Pusztai, O. Pizio, and S. Sokolowski, Comparison of interaction potentials of liquid water with respect to their consistency with neutron diffraction data of pure heavy water, J. Chem. Phys. 129 (2008) 184103. [Back]
Y. Asahara, M. Murakami, Y. Ohishi, N. Hirao and K. Hirose, Sound velocity measurement in liquid water up to 25 GPa and 900 K: Implications for densities of water at lower mantle conditions, Earth Planet. Sci. Lett. 289 (2010) 479-485. [Back] [Back to Top ]
L. D. Tijing, H. Y. Kim, D. H. Lee, C. S. Kim and Y. I. Cho, Physical water treatment using RF electric fields for the mitigation of CaCO₃ fouling in cooling water, Int. J. Heat Mass Transfer 53 (2010) 1426-1437. [Back]
A. Lenz and L. Ojamäe, Computational studies of the stability of the (H₂O)₁₀₀ nanodrop, J. Mol. Struct. THEOCHEM 944 (2010) 163-167. [Back]
E. Jéquier and F. Constant, Water as an essential nutrient: the physiological basis of hydration
Eur. J. Clin. Nutr. (2009) 1-9. [Back]
M. Arakawa, H. Kagi and H. Fukazawa, Annealing effects on hydrogen ordering in KOD doped ice observed using neutron diffraction, J. Mol. Structure 972 (2010) 111-114. [Back]
H. Jansson, R. Bergman and J. Swenson, Slow dielectric response of Debye-type in water and other hydrogen bonded liquids, J. Mol. Structure 972 (2010) 92-98. H. Jansson, R. Bergman, and J. Swenson, Hidden slow dynamics in water, Phys. Rev. Lett. 104 (2010) 017802; R. Richert, Comment on “Hidden Slow Dynamics in Water”, Phys. Rev. Lett. 104 (2010) 249801; Jansson, Bergman, and Swenson Reply: Phys. Rev. Lett. 104 (2010) 249802; Catalin P. Gainaru and Roland Böhmer, Comment on “Hidden Slow Dynamics in Water”, Phys. Rev. Lett. 104 (2010) 249803; Jansson, Bergman, and Swenson Reply: Phys. Rev. Lett. 104 (2010) 249804 (this reply is probably not correct for completely dry propylene carbonate, J. Swensson, Personal commun). [Back]
L. Fu, A. Bienenstock and S. Brennan, X-ray study of the structure of liquid water, J. Chem. Phys. 131 (2009) 234702. [Back, 2]
M. A. Hampton and A. V. Nguyen, Nanobubbles and the nanobubble bridging capillary force, Adv. Colloid Interface Sci. 333 (2009) 800-806. [Back]
E. S. Stoyanov, I. V. Stoyanova and C. A. Reed, The structure of the hydrogen ion (H_aq⁺) in water, J. Am. Chem. Soc.132 (2010) 1484-1485. [Back]
G. Niño-Medina, E. Carvajal-Millán, A. Rascon-Chu, J. A. Marquez-Escalant, V. Guerrero and E. Salas-Muiñoz, Feruloylated arabinoxylans and arabinoxylan gels: structure, sources and applications, Phytochem. Rev. 9 (2010) 111-120. [Back]
S. Dong, Z. Chen and Y. Wang, Neutron scattering and molecular dynamics simulation studies of the phase transition: High-density amorphous ice to low-density amorphous ice, Chem. Phys. 369 (2010) 8-12. [Back]
K. Furić, V. Volovšek, Water ice at low temperatures and pressures; new Raman results, J. Mol. Structure 976 (2010) 174-180. [Back]
B. Benelam and L. Wyness, Hydration and health: a review, Nutr.Bull. 35 (2010) 3-25; F. E. Karet, Disorders of water and acid-base homeostasis, Nephron Physiol. 118 (2011) 28-34. [Back]
S. V. Lishchuk, N. P. Malomuzh and P.l V. Makhlaichuk, Why thermodynamic properties of normal and heavy water are similar to those of argon-like liquids? Phys. Lett. A 374 (2010) 2084-2088. [Back]
T. Tokushima, Y. Harada, Y. Horikawa, O. Takahashi, Y. Senba, H. Ohashi, L. G. M. Pettersson, A. Nilsson and S. Shin, High resolution Xray emission spectroscopy of water and its assignment based on two structural motifs, J. Electron Spectr. Rel. Phenom. 177 (2010) 192-205. [Back, 2]
S. N. Novikov, A. I. Ermolaeva, S. P. Timoshenkov and V. S. Minaev, The influence of the supramolecular structure of water on the kinetics of vaporization, Russ. J. Phys.l Chem. A, 84 (2010) 534-537. [Back]
R. Zimmermann, U. Freudenberg, R. Schweiß, D. Küttner and C. Werner, Hydroxide and hydronium ion adsorption — A survey, Curr. Opinion Colloid Interface Sci. 15 (2010) 196-202. [Back]
K. Davitt, A. Arvengas and F. Caupin, Water at the cavitation limit: Density of the metastable liquid and size of the critical bubble, Europhys. Lett. 90 (2010) 16002. [Back]
K. E. Shaw, C. J. Woods, and A. J. Mulholland, Compatibility of quantum chemical methods and empirical (MM) water models in quantum mechanics/molecular mechanics liquid water simulations, J. Phys. Chem. Lett. 1 (2010) 219-223. [Back]
V. Elia, E. Napoli and M. Niccoli, Thermodynamic parameters for the binding process of the OH^- ion with the dissipative structures. Calorimetric and conductometric titrations, J. Therm. Anal. Calorim. 102 (2010) 1111-1118. [Back]
B. Lindman, G. Karlström and L. Stigsson, On the mechanism of dissolution of cellulose, J. Mol. Liquids156 (2010) 76-81. [Back]
J. G. Eberhart, A new four-parameter equation of state and its application in predicting the spinodal temperature
of water, WATER 1 (2009) 85-91. [Back].
S. E. Pagnotta, S. E. McLain, A. K. Soper, F. Bruni and M. A. Ricci, Water and trehalose: How much do they interact with each other? J. Phys. Chem. B 114 (2010) 4904-4908. [Back]
S. T. Roberts, P. B. Petersen, K. Ramasesha, A.i Tokmakoff, I. S. Ufimtsev, and T. J. Martinez, Observation of a Zundel-like transition state during proton transfer in aqueous hydroxide solutions, Proc. Nat. Acad. Sci. 106 (2009) 15154-15159. [Back]
D. A. Schmidt, S. Funkner, B. P. Born, R. Gnanasekaran, G. W. Schwaab, D. M. Leitner and M. Havenith, Rattling in the cage: Ions as probes of sub-picosecond water network dynamics, J. Am. Chem. Soc. 131 (2009) 18512-18517. [Back]
P. W. Wilson and A. D. J. Haymet, Hydrate formation and reformation in nucleating THF/water mixtures shows no evidence to support a “memory” effect, Chem. Eng. J. 161 (2010) 146-150. [Back] [Back to Top ]
R. D. Ambashta and M. Sillanpää, Water purification using magnetic assistance: a Review, J. Hazardous Mater. 180 (2010) 38-49. [Back]
R.-L. Sang and L. Xu, Reversible formation of regular pentagonal dodecahedral (H₂O)₂₀ in a 2D metal–organic framework, CrystEngComm 12 (2010) 1377-1381. [Back]
P. Gilli and G. Gilli, Hydrogen bond models and theories: The dual hydrogen bond model and its consequences, J. Mol. Structure 972 (2010) 2-10. [Back]
T. D. Kühne, M. Krack and M. Parrinello, Static and dynamical properties of liquid water from first principles by a novel Car-Parrinello-like approach, J. Chem. Theory Comput. 5 (2009) 235-241. [Back]
X. Fan, D. Bing , J. Zhang, Z. Shen and J.-L. Kuo, Predicting the hydrogen bond ordered structures of ice Ih, II, III, VI and ice VII: DFT methods with localized based set, Comp. Mater. Sci. 49 (2010) S170-S175. [Back, 2]
J. P. Devlin, I. A. Monreal, Clathrate–hydrate ultrafast nucleation and crystallization from supercooled aqueous nanodroplets, Chem. Phys. Lett. 492 (2010) 1-8. [Back]
C. L. Henry and V. S. J. Craig, The link between ion specific bubble coalescence and Hofmeister effects is the partitioning of ions within the interface, Langmuir 26 (2010) 6478-6483; V. S. J. Craig, Do hydration forces play a role in thin film drainage and rupture observed in electrolyte solutions? Curr. Opin. Coll. Interface Sci. 16 (2011) 597-600. [Back]
A. N. Dunaeva, D. V. Antsyshkin and O. L. Kuskov, Phase Diagram of H₂O: Thermodynamic functions
of the phase transitions of high-pressure ices, Solar System Res. 44 (2010) 202-222. [Back]
N. Schwierz, D. Horinek and R. R. Netz, Reversed anionic Hofmeister series: The interplay of surface charge
and surface polarity, Langmuir 26 (2010) 7370-7379. [Back]
K. Saleh, L. Forny, P. Guigon and I. Pezron, Dry water: from physico-chemical aspects to process related parameters, Chem. Eng. Res. Design 89 (2011) 537-544. [Back]
A. Perera, V. Meda and R. T. Tyler, Resistant starch: A review of analytical protocols for determining resistant starch and of factors affecting the resistant starch content of foods, Food Res. Int. 43 (2010) 1959-1974. [Back]
A. Shepherd, D. Wingham, D. Wallis, K. Giles, S. Laxon and A. V. Sundal, Recent loss of floating ice and the consequent sea level contribution, Geophys. Res. Lett., 37 (2010) L13503. [Back]
A. P. dos Santos, A. Diehl and Y. Levin, Surface tensions, surface potentials, and the Hofmeister series of electrolyte solutions, Langmuir 26 (2010) 10778-10783. arXiv:1002.2390v1 [cond-mat.soft] 11 Feb 2010. [Back, 2]
E. Tiezzi, M. CatalucciI and N. Marchettini, The supramolecular structure of water: NMR studies, Int. J. Design Nature Ecodynamics 5(1) (2010). [Back]
A. Melinder, Properties and other aspects of aqueous solutions used for single-phase and ice slurry applications, Int. J. Refrigeration 33 (2010) 1506-1512. [Back]
M. French, T. R. Mattsson, N. Nettelmann and R. Redmer, Equation of state and phase diagram of
water at ultrahigh pressures as in planetary interiors. Phys. Rev. B 79 (2009) 054107. N. A. Tahir, Th. Stöhlker, A. Shutov, I. V. Lomonosov, V. E. Fortov, M. French, N. Nettelmann, R. Redmer, A. R. Piriz, C. Deutsch, Y. Zhao, P. Zhang, H. Xu, G. Xiao and W. Zhan, Ultrahigh compression of water using intense heavy ion beams: laboratory planetary physics, New J. Phys. 12 (2010) 073022. [Back]
C. Guse, A. Simionescu, B. Schünemann, R. Hentschke and H. Bomsdorf, Temperature-dependent structure of liquid water investigated by means of energy-dispersive x-ray diffraction and molecular dynamics simulations, J. Phys.: Condens. Matter 22 (2010) 325105. [Back]
J.N. Scott and J. M. Vanderkooi, A new hydrogen bond angle/distance potential energy surface of the quantum water dimer, WATER 2 (2010) 14-28. [Back]
M. K. Budinski and A. Cook, Osmotic pressure of water in Nafion^®, Tsinghua Sci. Technol. 15 (2010) 385-390. [Back, 2]
M. V. C. Cardoso and E. Sabadini, The gelling of κ-carrageenan in light and heavy water, Carbohydr. Res. 345 (2010) 2368-2373. [Back]
R. Redmer, T. R. Mattsson, N. Nettelmann and M. French, The phase diagram of water and the magnetic fields of Uranus and Neptune, Icarus 211 (2011) 798-803. [Back]
M. Sharma, R. Resta and R. Car, Dipolar correlations and the dielectric permittivity of water. Phys. Rev. Lett. 98(2007) 247401. [Back]
K. Hyeon-Deuk and K. Ando, Quantum effects of hydrogen atoms on the dynamical rearrangement of hydrogen-bond networks in liquid water, J. Chem. Phys. 132 (2010) 164507. [Back]
E. Fisicaro, C. Compari and A. Braibanti, Hydrophobic hydration processes General thermodynamic model by thermal equivalent dilution determinations, Biophys. Chem. 151 (2010) 119-138. [Back, 2]
S. C. C. Nunes, A. J. L. Jesus, M. J. Moreno, M. Ermelinda and S. Eusébio, Conformational preferences of α,α- trehalose in gas phase and aqueous solution, Carbohydr. Res. 345 (2010) 2048-2059. [Back] [Back to Top ]
N. Miura, H. Yamada and A. Moon, Inter-molecular vibrational study in liquid water and ice by using far infrared spectroscopy with synchrotron radiation of MIRRORCLE 20, Spectrochim. Acta Part A: Mol. Biomol. Spectr. 77 (2010) 1048-1053. [Back]
C. D. Wick and L. X. Dang, The behavior of NaOH at the air-water interface: A computational study, J. Chem. Phys. 133 (2010) 024705. C. D. Wick and O. T. Cummings, Understanding the factors that contribute to ion interfacial behavior, Chem. Phys. Lett. 513 (2011) 161-166. [Back]
Directive 2008/100/EC, Official Journal of the European Union L 285/9 (2008). [Back]
P. W. Dettmar, V. Strugala and J. C. Richardson, The key role alginates play in health, Food Hydrocoll. 25 (2011) 263-266. [Back]
M. C. Jarvis, Plant cell walls: Supramolecular assemblies, Food Hydrocoll. 25 (2011) 257-262. [Back]
W. Li, S. W. Cui, Q. Wang and R. Y. Yada, Studies of aggregation behaviours of cereal β-glucans in dilute aqueous solutions by light scattering: Part I. Structure effects, Food Hydrocoll. 25 (2011) 189-195. [Back]
C. U. Kim, B. Barstow, M. W. Tate and S. M. Gruner, Evidence for liquid water during the high-density to low-density amorphous ice transition, Proc. Nat. Acad. Sci. 106 (2009) 4596-4600. [Back]
S. Juna, P. A. Williams and S. Davies, Determination of molecular mass distribution of amylopectin using asymmetrical flow field-flow fractionation, Carbohydr. Polymers 83 (2011) 1384-1396. [Back]
D. B. Watson, Public health and carrageenan regulation: a review and analysis J. Appl. Phycol. 20 (2008) 505-513. [Back]
O. Mishima, Volume of supercooled water under pressure and the liquid-liquid critical point, J. Chem. Phys. 133 (2010) 144503. [Back, 2]
L. Makkonen, Surface melting of ice, J. Phys. Chem. B 101 (1997) 6196-6200. [Back]
J.-J. Max and C. Chapados, Isotope effects in liquid water by infrared spectroscopy. IV. No free OH groups in liquid water, J. Chem. Phys. 133 (2010)164509. [Back]
Y. Suzuki and Y. Tominaga, Polarized Raman spectroscopic study of relaxed high density amorphous ices under pressure, J. Chem. Phys. 133 (2010) 164508. [Back]
C. Z. Liu, C. H. Lin, M. S. Yeh, Y. M. Chao, P. Shen, Surface modification and planar defects of calcium carbonates by magnetic water treatment, Nanoscale Res. Lett. 5 (2010) 1982-1991. [Back]
D. Liu, X. Chen, Y. Yue, M, Chen and Q. Wu, Structure and rheology of nanocrystalline cellulose, Carbohydr. Polymers 84 ( 2011) 316-322. [Back]
E. Del Giudice, E. C. Fuchs and G. Vitiello, Collective molecular dynamics of a floating water bridge, WATER 2 (2010) 69-82. see also [1361 ]. [Back, 2]
Á. G. Marín and D. Lohse, Building water bridges in air: Electrohydrodynamics of the floating water bridge, Physics of fluids 22 (2010) 122104. see also [1361]. [Back]
A. Szczes, E. Chibowski, L. Hołysz and P. Rafalski, Effects of static magnetic field on water at kinetic condition, Chem. Eng. Process. 50 (2011) 124-127. [Back]
V. K. Konyukhov, Mixed state of spin moments of two protons in the water molecule and stability of its spin isomers, Bull. Lebedev Phys. Instit. 37 (2010) 359-360. [Back]
D. Zhong, S. K. Pal and A. H. Zewail, Biological Water: A critique, Chem. Phys. Lett. 503 (2010) 1-11. [Back]
J. J. Effing, I. J. McLennan and J. C. T. Kwak, Associative phase separation observed in a hydrophobically modified poly (acrylamide)/sodium dodecyl sulfate system, J. Phys. Chem. 98 (1994) 2449-2502. [Back]
X. Pang and B. Deng, Infrared absorption spectra of pure and magnetized water at elevated temperatures, Europhys. Lett. 92 (2010) 65001. [Back, 2, 3]
A. Angulo-Sherman, H. Mercado-Uribe, Dielectric spectroscopy of water at low frequencies: The existence of an isopermitive point, Chem. Phys. Lett. 503 (2011) 327-330. [Back]
G. F. Reiter, A.I. Kolesnikov S. J. Paddison, P. M. Platzman, A.P. Moravsky, M. A. Adams and J. Mayers, Evidence of a new quantum state of nano-confined water, arXiv:1101.4994v1 [cond-mat.mes-hall] 26 Jan 2011. [Back, 2]
M. Tanaka and A. Mochizuki, Clarification of the blood compatibility mechanism by controlling the water Structure at the blood–poly(meth)acrylate interface, J. Biomaterials Sci. 21 (2010) 1849-1863. [Back] [Back to Top ]

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