卷材考试题_百度文库
两大类热门资源免费畅读
续费一年阅读会员，立省24元！
卷材考试题
上传于||文档简介
&&资​质​备​案​,​卷​材​考​试​题
阅读已结束，如果下载本文需要使用0下载券
想免费下载更多文档？
定制HR最喜欢的简历
下载文档到电脑，查找使用更方便
还剩1页未读，继续阅读
定制HR最喜欢的简历
你可能喜欢同济大学图书馆v5.5书目检索系统
把本书分享到
收藏此书的书架
MARC状态：已编　
文献类型：西文图书　浏览次数：6　
题名/责任者:
Analysen u. Materialien / Trutz Rendtorff &#x003b; Heinz Eduard Tödt.
3. Aufl., 21. - 30. Tsd
出版发行项:
Frankfurt a.M. : Suhrkamp, 1969.
载体形态项:
164 p. &#x003b; 18 cm.
个人责任者:
附加个人名称:
中图法分类号:
全部MARC细节信息>>
总体评价: (共0人) &&&我的评价:
B977/WR397
嘉定德文书库(闭架)
显示全部馆藏信息
您可能感兴趣的图书(点击查看)
同名作者的其他著作(点击查看)
请输入下面显示的内容Water structure science: References 2101 - 2200
Your browser does not support JavaScript!
Quick links
......................................
Water molecule
Hydrogen bonding
Phase diagram
Water spectrum
Dissociation
Water properties
......................................
Water clusters
Protein hydration
Hydrocolloids
......................................
Table of Contents
Water Structure and Science References 2101 - 2200
C. del Val, L. Bondar and A.-N. Bondar, Coupling between inter-helical hydrogen bonding and water dynamics in a proton transporter, J. Struct. Biol. 186 (.
J. W. Bye, S. Meliga, D. Ferachou, G. Cinque, J. A. Zeitler and R. J. Falconer Analysis of the hydration water around bovine serum albumin using terahertz coherent synchrotron radiation, J. Phys. Chem. A, 118 (; O. Sushko, R. Dubrovka and R. S. Donnan, Sub-terahertz spectroscopy reveals that proteins influence the properties of water at greater distances than previously detected, J. Chem. Phys. 142 (;
O. Sushko, R. Dubrovka and R. S. Donnan, Erratum: &Sub-terahertz spectroscopy reveals that proteins influence the properties of water at greater distances than previously detected& [J. Chem. Phys. 142, 15)], J. Chem. Phys. 142 (. []
C. J. Van Oss, R. F. Giese , R. Wentzek, J. Norris and E. M. Chuvilin, Surface tension parameters of ice obtained from contact angle data and from positive and negative particle adhesion to advancing freezing fronts, J. Adhesion Sci. Technol. 6 (6.
R.&M. Espinosa-Marzal, G. Fontani, F.&B. Reusch, M. Roba, N.&D. Spencer and R. Crockett, Sugars communicate through water: Oriented glycans induce water structuring, Biophys. J. 104 (-2694.
B. I. Kim, R. D. Boehm and J. R. Bonander, Direct observation of self-assembled chain-like water structures in a nanoscopic water meniscus, J. Chem. Phys. 139 (.
G. Carmignani,
S. Sitkiewitz and J. W. Webley, Recovery of retrograde soluble solute for forward osmosis water treatment, U. S. Patent Appl. (67308.
Z. Pavelek, Comparison of the methods used for studying the equilibrium of the lyate ions in water&methanol mixture, Chem. Papers 42 (4.
J. R. T. Seddon, D. Lohse, W A. Ducker and V S. J. Craig, A deliberation on nanobubbles at surfaces and in bulk, ChemPhysChem 13 (-2187; P. Attard, Thermodynamic stability of nanobubbles (2015).
D. Sette and F. Wanderlingh, Nucleation by cosmic rays in ultrasonic cavitation, Phys. Rev. 125 (7.
S.Wi, J. Spano and W. A. Ducker, Hindered rotation of water near C60, J. Phys . Chem. C 114 (-14991.
A. M. Tokmachev, A. L. Tchougr&eff and R. Dronskowski, Hydrogen-bond networks in water clusters (H2O)20: an exhaustive quantum-chemical analysis. ChemPhysChem 11 ( 8.
E. H. Hardy, A. Zygar, M. D. Zeidler, M. Holz and F. D. Sacher, Isotope effect on the translational and rotational motion in liquid water and ammonia, J. Chem. Phys. 114 (-3181.
E. Rozners, Determination of nucleic acid hydration using osmotic stress, Curr Protoc Nucleic Acid Chem. (2010) Unit&7.14.
C. J. Pickard, M. Martinez-Canales and R. J. Needs, Decomposition and terapascal phases of water ice, Phys. Rev. Lett. 110 (.
Z. Cao. and J. U. Bowie,
An energetic scale for equilibrium H/D fractionation factors illuminates hydrogen bond free energies in proteins. Protein Sci. 23 (5.
P. Atkins and J. de Paula, (OUP, Oxford, 2002). [, ]
Y. Levin and A. P dos Santos, Ions at hydrophobic interfaces, J. Phys.: Condens. Matter 26 (.
A. A. Volkov, N. V. Anisimov, V. N. Nikiforov, Yu. A. Pirogov and A. S. Prokhorov, Search for an NMR Signal from spin isomers of water in H2O/D2O mixture, Biophysics 59 (; Biofizika 59 (.
J. Chiu, F. W. Starr and N. Giovambattista, Heating-induced glass-glass and glass-liquid transformations in computer simulations of water, J.
Chem.Phys. 140 (. [, ]
U. Bergmann, A. Di Cicco, P. Wernet, E. Principi, P. Glatzel and A. Nilsson, Nearest-neighbor oxygen distances in liquid water and ice observed by x-ray Raman based extended x-ray absorption fine structure, J. Chem. Phys. 127 (. []
Yu. I. Prylutskyy, V. I. Petrenko, O. I. Ivankov, O. A. Kyzyma, L. A. Bulavin, O. O. Litsis, M. P. Evstigneev, V. V. Cherepanov, A. G. Naumovets and U. Ritter, On the origin of C60 fullerene solubility in aqueous solution, Langmuir 30 (-3970. []
D. P. Voronin, A. S. Buchelnikov, V. V. Kostjukov, S. V. Khrapatiy, D. Wyrzykowski, J. Piosik, Yu. I. Prylutskyy, U. Ritter and M. P. Evstigneev, Evidence of entropically driven C60 fullerene aggregation in aqueous solution, J. Chem. Phys. 140 (. []
C. Barras, No more primal soup: Creating life without water, New Scientist
2965 (. []
T. Scheike, W. B&hlmann, P. Esquinazi, J. Barzola-Quiquia, A. Ballestar and A. Setzer, Can doping graphite trigger room temperature superconductivity? Evidence for granular high-temperature superconductivity in water-treated graphite powder, Adv. M ater. 24 (-5831. []
K. E. Otto, Z. Xue, P. Zielke and M. A. Suhm, The Raman spectrum of isolated water clusters, Phys. Chem. Chem. Phys. 16 (-9858. []&[]
H. Kadobayashi, H. Hirai, T. Matsuoka, Y. Ohishi and Y. Yamamoto, A possible existence of phase change of deuterated ice VII at about 11 GPa by X-ray and Raman studies, J. Phys.: Conf. Series 500 (; H. Hirai, H. Kadobayashi, T. Matsuoka, Y. Ohishi and Y. Yamamoto, High pressure X-ray diffraction and Raman spectroscopic studies of the phase change of D2O ice VII at approximately 11 GPa, High Pressu re Res. 34 (6. []
and H. Tanaka, Understanding water&s anomalies with locally favoured structures, Nature Comm. 5 (,
N. M. Levinson and S. G. Boxer, A conserved water-mediated hydrogen bond network defines bosutinib&s kinase selectivity, Nature Chem. Biol. 10 (2. []
V. Holten, D. T. Limmer, V. Molinero and M. A. Anisimov,Nature of the anomalies in the supercooled liquid state of the mW model of water. J. Chem. Phys. 138 (; . []
D. T. Limmer and D. Chandler, Theory of amorphous ices, PNAS 111 (-9418; . []
G. Cassone, P. V. Giaquinta, F. Saija and A. M. Saitta, Proton conduction in water ices under an electric field, J. Phys. Chem. B 118 (-4424; A.M. Saitta , F. Saija and P. V. Giaquinta, Ab
initio molecular dynamics study of dissociation of water under an electric
field, Phys. Rev. Lett. 108 (. []
T. P. Silverstein, The aqueous proton is hydrated by more than one water molecule: is the hydronium ion a useful conceit? J. Chem. Educ. 91 (0. [, ]
A. I. Boldyrev and J. Simons, Ab initio study of geometrically metastable multiprotonated species: MHnk+, J. Chem. Phys. 97 (-4281. []
C. A. Reed,
Myths about the proton: the nature of H+ in condensed media. Acc. Chem. Res. 46 (-2575. [, ]
E. S. Stoyanov, I. V. Stoyanova and C. A. Reed, The unique nature of H+ in water, Chem. Sci. 2 (2.
W. Kulig and N. Agmon, Both Zundel and Eigen isomers contribute to the IR spectrum of the gas-phase H9O4+ cluster, J. Phys. Chem. B 118 (2014,) 278-286.
A. Kumar, S. R. Gadre, N. Mohan and C. H. Suresh, Lone pairs: an electrostatic viewpoint, J. Phys. Chem. A 118 (2.
D. Lis, E. H. G. Backus, J. Hunger, S. H. Parekh and M. Bonn, Liquid flow along a solid surface reversibly alters interfacial chemistry, Science 344 (-1142 ; G. A. Waychunas, Disrupting dissolving ions at surfaces with fluid flow, Science 344 (-1095.
S. Enami and A. J. Colussi, Long-range specific ion-ion interactions in hydrogen-bonded liquid films, J. Chem. Phys. 138 (; S. Enami and A. J. Colussi, Ion-specific long-range correlations on interfacial water driven by hydrogen bond fluctuations, J. Phys. Chem. B 118 (-1866.
N. Galamba, Water tetrahedrons, hydrogen-bond dynamics, and the orientational mobility of water around hydrophobic solutes, J. Phys. Chem. B 118 (-4176; see also N. Galamba, Water&s structure around hydrophobic solutes and the iceberg model. J. Phys. Chem. B 117(-2159; G. Graziano,
Comment on &Water&s structure around hydrophobic solutes and the iceberg model& J. Phys. Chem. B 118 (-2599; N. Galamba, Reply to &Water&s structure around hydrophobic solutes and the iceberg model&&, J. Phys. Chem. B 118 (-2603.
L. Kong, C. Lee, S. H. Kim and G. R. Ziegler, Characterization of starch polymorphic structures using vibrational
sum frequency generation spectroscopy, J. Phys. Chem. B 118 (-1783.
J. Hrubý, V. Vinš, R. Mareš, J. Hykl and J. Kalová, Surface tension of supercooled water: No inflection point down to &25
&C, J. Phys. Chem. Lett. 5 (8.
J. A. Sellberg, C. Huang, T. A. McQueen, N. D. Loh, H. Laksmono, D. Schlesinge, R. G. Sierra, D. Nordlund, C. Y. Hampton, D. Starodub, D. P. DePonte, M. Beye, C. Chen, A. V. Martin, A. Barty, K. T. Wikfeldt, T. M. Weiss, C. Caronna, J. Feldkamp, L. B. Skinner, M. M. Seibert, M. Messerschmidt, G. J.Williams, S. Boutet, L. G. M. Pettersson, M. J. Bogan and A. Nilsson, Ultrafast X-ray probing of water structure below the homogeneous ice nucleation temperature, Nature 510 (4.
J. C. Palmer, F. Martelli, Y. Liu, R. Car, A. Z. Panagiotopoulos and P. G. Debenedetti, Metastable liquid-liquid transition in a molecular model of water, Nature 510 (8; this is challenged by D. Chandler, Metastability and no criticality, Nature 531 (2016) E1&E2, doi:10.1038/nature16539; and D. Chandler, Illusions of phase coexistence: Comments on \Metastable liquid-liquid transition ... & by J. C. Palmer et al., Nature 510, 385 (2014), ; and the challenge rebutted by J. C. Palmer, F. Martelli, Y. Liu, R. Car, A. Z. Panagiotopoulos and P. G. Debenedetti, Palmer et al. reply, Nature 531 (2016) E2-E3, doi:10.1038/nature16540.
T. Bartels-Rausch, V. Bergeron, J. H. E. Cartwright, R. Escribano, J. L. Finney, H. Grothe, P. J. Gutirrez, J. Haapala, W. F. Kuhs, J. B. C. Pettersson, S. D. Price, C. I. Sainz-Daz, D. J. Stokes, G. Strazzulla, E. S. Thomson, H. Trinks, and N. Uras-Aytemiz, Ice structures, patterns, and processes: A view across the icefields, Rev. Mod. Phys. 84 (4.
P. Geiger, C. Dellago, M. Macher, C. Franchini, G. Kresse, J. Bernard, J. N. Stern and T. Loerting, Proton ordering of cubic ice Ic: Spectroscopy and computer simulations, J. Phys. Chem. C 118 (-10997.
M. Soniat and S. W. Rick Charge transfer effects of ions at the liquid water/vapor interface, J. Chem.Phys. 140 (.
J. M. Silla,
R. A. Cormanich,
R Rittner and M. P. Freitas,
Does intramolecular hydrogen bond play a key role in the stereochemistry of &- and &-d-glucose?, Carbohydr. Res. 396 (.
J. Russo, F. Romano and H. Tanaka, New metastable form of ice and its role in the homogeneous crystallization of water, Nature Mat. 13 (9; B. Slater and D. Quigley, Zeroing in on ice, Nature Mat. 13 (1; D. Quigley, D. Alf&, and B. Slater, Communication: On the stability of ice 0, ice i, and I h, J. Chem. Phys. 141, ( . []
A. K. Soper, Supercooled water: Continuous trends, Nature Mat. 13 (3; A. Angell, Supercooled water: Two phases? Nature Mat. 13 (5; Editorial comment, Debated waters, Nature Mat. 13 (. []&[]
A. Mandal, K. Ramasesha, L. De Marco and A. Tokmakoff, Collective vibrations of water-solvated hydroxide ions investigated with broadband 2DIR spectroscopy, J. Chem.Phys. 140 (. []
R. Shevchuk, N. Agmon and F. Rao, Network analysis of proton transfer in liquid water, J. Chem. Phys. 140 (. []
C. P. Herrero and R. Raḿırez, Configurational entropy of hydrogen-disordered ice polymorphs, J. Chem. Phys. 140 (;
[physics.chem-ph] 23 Jun 2014.
[, , , , , ]
Y. Liu and L. Ojam&e, Fingerprints in IR OH vibrational spectra of H2O clusters from different H-bond conformations by means of quantum-chemical computations, J. Mol. Model. 20 (. []
X. Xiao-Min, C. Lan, Z. Wen-Long, L. Long-Fei, Y. Yue-Bin, P. Zhi-Yong and Z. Jin-Xiu, Imaginary part of the surface tension of water, Chinese Phys. Lett. 31 (. [, ]
D. A. Horke, Y.-P. Chang, K. Długołecki and J. K&pper, Separating para and ortho water, Angew. Chem. Int. Ed.53 (-11968; [physics.chem-ph] 8 Jul 2014. []
N. Kitadai, T, Sawai, R. Tonoue, S. Nakashima, M. Katsura and K. Fukushi, Effects of ions on the OH stretching band of water as revealed by ATR-IR spectroscopy, J. Solution Chem. 43 (-1077. [, ]
C.-W. Liu,
F. Wang, L. Yang,
W.-J. Zheng
and Y. Q. Gao, Stable salt&water cluster structures reflect the delicate competition between ion&water and water&water interactions, J. Phys. Chem. B 118 (1; R.-Z. Li, C.-W. Liu, Y. Q. Gao, H. Jiang, H.-G. Xu and W.-J. Zheng, Microsolvation of LiI and CsI in water: Anion photoelectron spectroscopy and ab initio calculations, J. Am. Chem. Soc. 135 (-5199. []
C. Vega and J. L. F. Abascal, Simulating water with rigid non-polarizable models: a general perspective, Phys. Chem. Chem. Phys. 13 (-19688. []
C. M. Davis Jr and T. A. Litovitz,
Two‐state theory of the structure of water, J. Chem. Phys. 42 (-2576. []
K. Arakawa and K. Sasaki, The structure theory of water. I. Two state theory, Bull. Chem. Soc. Japan 42 (8. []
T. T. Duignan, D. F. Parsons and B. W. Ninham, Collins&s rule, Hofmeister effects and ionic dispersion interactions, Chem. Phys. Lett. 608 (. []
K, Mochizuki,
K. Himotoa and
M. Matsumoto,
Diversity of transition pathways in the course of crystallization into ice VII, Phys. Chem. Chem. Phys. 16 (-16425. []
A. Fern&ndez, Chemical functionality of interfacial water enveloping nanoscale structural defects in proteins, J. Chem. Phys.140 (. []
T. S. Vlasenko, Yu. F. Zabashta, and V. M. Sysoev, Supramolecular structure of aqueous solutions of glucose according to dynamic light scattering data, Russian J. Phys. Chem. A 88 (-1363; Z. Fiz. Khim. 88 (2014)
V. Elia, G. Ausanio, A. De Ninno, R. Germano, E. Napoli and M. Niccoli, Experimental evidences of stable water nanostructures at standard pressure and temperature obtained by iterative filtration, WATER 5 (0. []
A. K. Soper, The radial distribution functions of water as derived from radiation total scattering experiments: is there anything we can say for sure? ISRN Physical Chemistry 2013 (, http://dx.doi.org/10./279463. []
S. Izadi, R. Anandakrishnan and A. V. Onufriev, Building water models, A different approach, J. Phys. Chem. Lett 5 (-3871;
[physics.chem-ph] 7 Aug 2014. []
I. N. Husz&r, Z. M&rtonfalvi, A. J. Laki, K. Iv&n and M. Kellermayer,
Exclusion-zone dynamics explored with microfluidics and optical tweezers, Entropy 16 (-4337c
I. Waluyo, D. Nordlund, U. Bergmann, D. Schlesinger, L. G. M. Pettersson and A. Nilsson, A different view of structure-making and structure-breaking in alkali halide aqueous solutions through x-ray absorption spectroscopy, J. Chem. Phys. 140 (. [, ]
V. G. Artemov, A. A. Volkov, Water and ice dielectric spectra scaling at 0
&C, Ferroelectrics 466 (5, doi:
10.3.; ; V. G. Artemov, A. A. Volkov, A. V. Pronin and A. A. Volkov, Electrical properties of water: a new insight, Biophysics 59 (2014)
520-523; Biofizika 59 (2014)
636-640; A.V. Klyuev, I.A. Ryzhkin, M.I. Ryzhkin, Generalized dielectric permittivity of ice, JETP Lett. 100 (8; Pis&ma v Zhurnal Eksperimental&noi . Teoretich. Fiz. 100 (7; A. A. Volkov, V. G. Artemov and A. V. Pronin, A radically new suggestion about the electrodynamics of water: Can the pH index and the Debye relaxation be of a common origin? Europhys. Lett. 106 (. [, , ]
N. H. de Leeuw, C. R. A. Catlow, H. E. King, A. Putnis, K. Muralidharan, P. Deymier, M. Stimpfl and M. J. Drake&, Where on Earth has our water come from?&Chem. Commun. 46 (-8925. []
C. M. O&D. Alexander, R. Bowden, M. L. Fogel, K. T. Howard, C. D. K. Herd and L. R. Nittler, The provenances of asteroids, and their contributions to the volatile inventories of the terrestrial planets, Science 337 (3. []
UNICEF and World Health Organization, (2012). []
Pacific Institute, The World&s Water 8 (2014); . []&[]
L. Mehta, Water and human development, World Development
N. Ghaffour, T. M. Missimer and G. L. Amy, Technical review and evaluation of the economics of water desalination: Current and future challenges for better water supply sustainability, Desalination 309 (7. []
L. N. Plummer and E. Busenberg, The solubilities of calcite, aragonite and vaterite in CO2-H2O solutions between 0 and 90 &C, and an evaluation of the aqueous model for the system CaCO3-CO2-H2O, Geochim. Cosmochim. Acta 46 (40. []
M. H. Sharqawy, J. H. Lienhard and S. M. Zubai, Thermophysical properties of seawater: a review of existing correlations and data, Desalination and Water Treatment 16 (0. []
K.-H. Liu , Y. Zhang , J.-J. Lee , C.-C. Chen , Y.-Q. Yeh , S.-H. Chen and C.-Y. Mou, Density and anomalous thermal expansion of deeply cooled water confined in mesoporous silica investigated by synchrotron X-ray diffraction, J. Chem. Phys. 139 (. []
Z. Wang, K.-H. Liu, L. Harriger, J. B. Le&o and S.-H. Chen, Evidence of the existence of the high-density and low-density phases in deeply-cooled confined heavy water under high pressures J. Chem. Phys. 141 (2014)
014501. []
M. M. Reddy,
L. N. Plummer and
E. Busenberg, Crystal growth of calcite from calcium bicarbonate solutions at constant PCO2 and 25 &C: a test of a calcite dissolution mode, Geochim. Cosmochim. Acta 45 (89.
Y. I. Cho,
B.-G. Choi , Theory of electronic anti-fouling technology to control precipitation fouling in heat exchangers, Int. Commun. Heat
Mass Transfer 24 (0. []
C. Y. Tai, M.-C. Chang andS.-W. Yeh, Synergetic effects of temperature and magnetic field on the aragonite and calcite growth, Chem. Eng. Sci. 55 (-1253. []
A. Stirling and I. P&pai, H2CO3 Forms via HCO3- in water, J. Phys. Chem. B, 114 (-16859. []
M. Shahid and R. M. Pashley, The use of air bubbles to desalinate seawater without boiling, Aqua Incognita: why ice floats on water and Galileo 400 years on, Ed.
P. Lo Nostro and B. W. Ninham,
ISBN: 4 (Connor Court, Ballarat, 2014)
pp 350-366. []
H. Lhuissier, C, Sun and D. Lohse, Surface nanobubbles nucleate microdroplets, Phys. Rev. Lett. 112 (. []
R. J. Cooper, S. Heiles, M. J. DiTucci and E. R. Williams, Hydration
of guanidinium: second shell formation at small cluster size, J. Phys. Chem. 118 (-5666; S. Heiles, R. J. Cooper, M. J. DiTucci and E. R. Williams, Hydration of guanidinium depends on its local environment, Chem. Sci. 6 (. []
L. G. M. Pettersson and A. Nilsson, Th from ambient to deeply supercooled, J. Non-Cryst. Solids 407 (7; this paper is somewhat challenged by G. P. Johari and J. Teixeira, Thermodynamic analysis of the two-liquid model for anomalies of water, HDL&LDL fluctuations, and liquid&liquid transition, J. Phys. Chem. B
119 (-14220. [, ]
M. D. Baer, D. J. Tobias
and C. J. Mundy, Investigation of interfacial and bulk dissociation of HBr, HCl, and HNO3 using density functional theory-based molecular dynamics simulations, J. Phys. Chem. C (2014) Article ASAP doi: 10.1021/jp5062896. []
A. T. Ayoub, J. Tuszynski and M. Klobukowski, Estimating hydrogen bond energies: comparison of methods, Theor. Chem. Acc. 133 (; R. F. W. Bader, A quantum theory of molecular structure and its applications, Chem. Rev. 91 (8. []
T. Sadhukhan, I.A. Latif and S. N. Datta, Solvation of CO2 in water: Effect of RuBP on CO2 concentration in bundle sheath of C4 plants, J. Phys. Chem. B 118 (-8791. []
M. J. Shultz, P. J. Bisson and A. Brumberg, Best face forward: crystal-face competition at the ice&water interface, J. Phys. Chem. B 118 (-7980. []
Y. Koga, P. Westh, K. Yoshida, A. Inaba and Y. Nakazawa, Gradual crossover in molecular organization of stable liquid H2O at moderately high pressure and temperature, AIP Advances 4 (. [, ]
A. Shalit, F. Perakis and P. Hamm, Two-dimensional infrared spectroscopy of isotope-diluted low density amorphous ice, J. Phys. Chem. B 117 (-15518. []
M. Odelius, Information content in O[1s] K-edge X-ray emission spectroscopy of liquid water, J. Phys. Chem. A.113 (-8181; Z. Yin, I. Rajkovic, K. Kubicek, W. Quevedo, A. Pietzsch, P. Wernet, A. Föhlisch and S. Techert, Probing the Hofmeister effect with ultrafast core&hole spectroscopy, J. Phys. Chem. B 118 (-9403.
J. Werner, E. Wernersson, V. Ekholm, N. Ottosson, G. Ohrwall, J. Heyda, I. Persson, J. S&derstr&m, P. Jungwirth and O. Bj&rneholm, Surface behavior of hydrated guanidinium and ammonium ions: a comparative study by photoelectron spectroscopy and molecular dynamics, J. Phys. Chem. B. 118 (-7127.
I. V. Stiopkin, C. Weeraman, P. A. Pieniazek, F. Y. Shalhout, J. L. Skinner and A. V. Benderskii, Hydrogen bonding at the water surface revealed by isotopic dilution spectroscopy, Nature 474 (5; P. Jungwirth, Water's wafer-thin surface, Nature 474 (9.
A. Kub&čkov&, T. Kř&žek, P. Coufal, E. Wernersson, J. Heyda and P. Jungwirth, Guanidinium cations pair with positively charged arginine side chains in water, J. Phys. Chem. Lett. 2 (-1389.
K. A. Dill, K. Ghosh and J D. Schmit, Physical limits of cells and proteomes, PNAS U S A. 108 (-17882.
This page was established in 2014 and
last updated
by Martin Chaplin on
3 October, 2016
This work is licensed under a}