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REFERENCES

Оглавление

1 1. van de Hulst, H.C. (1957). Light Scattering by Small Particles. New York: Dover.

2 2. Brown, W. (ed.) (1996). Light Scattering ‐ Principles and Development. Oxford: Oxford University Press.

3 3. Lindner, P. and Zemb, T. (eds.) (2002). Neutrons, X‐Rays and Light. Scattering Methods Applied to Soft Condensed Matter. Amsterdam: Elsevier.

4 4. Glatter, O. (2018). Scattering Methods and their Application in Colloid and Interface Science. Amsterdam: Elsevier.

5 5. Guinier, A. and Fournet, G. (1955). Small Angle Scattering of X‐Rays. New York: Wiley.

6 6. Glatter, O. and Kratky, O. (eds.) (1982). Small Angle X‐Ray Scattering. London: Academic.

7 7. Feigin, L.A. and Svergun, D.I. (1987). Structure Analysis by Small‐Angle X‐Ray and Neutron Scattering. New York: Plenum.

8 8. Hamley, I.W. (1991). Scattering from uniform, cylindrically symmetric particles in liquid crystal phases. The Journal of Chemical Physics 95: 9376–9383.

9 9. Svergun, D.I. and Koch, M.H.J. (2003). Small‐angle scattering studies of biological macromolecules in solution. Reports on Progress in Physics 66: 1735–1782.

10 10. Glatter, O. (2002). The inverse scattering problem in small‐angle scattering. In: Neutrons, X‐Rays and Light Scattering Methods Applied to Soft Condensed Matter (eds. P. Lindner and T. Zemb), 73–102. Amsterdam: Elsevier.

11 11. Svergun, D.I., Koch, M. H. J, Timmins, P.A., and May, R.P. (2013). Small Angle X‐ray and Neutron Scattering from Solutions of Biological Macromolecules. Oxford: Oxford University Press.

12 12. Roe, R.‐J. (2000). Methods of X‐Ray and Neutron Scattering in Polymer Science. New York: Oxford University Press.

13 13. Glatter, O. (2018). Scattering Methods and their Application in Colloid and Interface Science, Chap.3. Amsterdam: Elsevier.

14 14. Brennich, M., Pernot, P., and Round, A. (2017). How to Analyze and Present SAS Data for Publication. In: Biological Small Angle Scattering: Techniques, Strategies and Tips, Advances in Experimental Medicine and Biology (ed. B. Chaudhuri), 47–64. Berlin: Springer.

15 15. Castelletto, V., Edwards‐Gayle, C.J.C., Hamley, I.W. et al. (2019). Self‐assembly of a catalytically active lipopeptide and its incorporation into cubosomes. ACS Applied Bio Materials 2: 3639–3648.

16 16. Kotlarchyk, M. and Chen, S.‐H. (1983). Analysis of small‐angle scattering spectra from polydisperse interacting colloids. The Journal of Chemical Physics 79: 2461–2469.

17 17. Pedersen, J.S. (2002). Modelling of small‐angle scattering data. In: Neutrons, X‐Rays and Light Scattering Methods Applied to Soft Condensed Matter (eds. P. Lindner and T. Zemb). Amsterdam: Elsevier.

18 18. Pedersen, J.S. (1997). Analysis of small‐angle scattering data from colloids and polymer solutions: modeling and least‐squares fitting. Advances in Colloid and Interface Science 70: 171–210.

19 19. Foffi, G., Savin, G., Bucciarelli, S. et al. (2014). Hard sphere‐like glass transition in eye lens alpha‐crystalline solutions. Proceedings of National Academy of Sciences of the United States of America 111: 16748–16753.

20 20. Hamley, I.W. (2007). Introduction to Soft Matter. Revised Edition. Chichester: Wiley.

21 21. Bressler, I., Kohlbrecher, J., and Thünemann, A.F. (2015). SASfit: a tool for small‐angle scattering data analysis using a library of analytical expressions. Journal of Applied Crystallography 48: 1587–1598.

22 22. Hosemann, R. and Bagchi, S.N. (1962). Direct Analysis of Diffraction by Matter. Amsterdam: North‐Holland.

23 23. Caillé, A. X-ray scattering by smectic-A crystals. Comptes Rendus Hebdomaires des Seances de l'Academie des Sciences, Series B 274: 891–892.

24 24. Zhang, R.T., Suter, R.M., and Nagle, J.F. (1994). Theory of the structure factor of lipid bilayers. Physical Review E 50: 5047–5060.

25 25. Pabst, G., Rappolt, M., Amenitsch, H., and Laggner, P. (2000). Structural information from multilamellar liposomes at full hydration: full q‐range fitting with high quality x‐ray data. Physical Review E 62: 4000–4009.

26 26. Giacovazzo, C., Monaco, H.L., Viterbo, D. et al. (1992). Fundamentals of Crystallography. Oxford: International Union of Crystallography/Oxford University Press.

27 27. Förster, S., Timmann, A., Konrad, M. et al. (2005). Scattering functions of ordered mesoscopic materials. Journal of Physical Chemistry B 109: 1347–1360.

28 28. Hamley, I.W. and Castelletto, V. (2004). Small‐angle scattering of block copolymers in the melt, solution and crystal states. Progress in Polymer Science 29: 909–948.

29 29. Cullity, B.D. and Stock, S.R. (2001). Elements of X‐Ray Diffraction. Prentice Hall: Upper Saddle River, New Jersey.

30 30. de Jeu, W.H. (2016). Basic X‐Ray Scattering for Soft Matter. Oxford: Oxford University Press.

31 31. Stribeck, N. (2007). X‐Ray Scattering of Soft Matter. Berlin: Springer‐Verlag.

32 32. Fisher, M.E. and Burford, R.J. (1967). Theory of critical‐point scattering and correlations I. The Ising Model. Physics Review 126: 583–622.

33 33. Sorensen, C.M. and Wang, G.M. (1999). Size distribution effect on the power law regime of the structure factor of fractal aggregates. Physical Review E 60: 7143–7148.

34 34. Sinha, S.K., Freltoft, T., and Kjems, J. (1984). Observation of power‐law correlations in silica‐particle aggregates by small‐angle neutron scattering. In: Kinetics of Aggregation and Gelation (eds. F. Family and D.P. Landau). Amsterdam: Elsevier.

35 35. Mildner, D.F.R. and Hall, P.L. (1986). Small‐angle scattering from porous solids with fractal geometry. Journal of Physics D: Applied Physics 19: 1535–1545.

36 36. Freltoft, T., Kjems, J.K., and Sinha, S.K. (1986). Power‐law correlations and finite‐size effects in silica particle aggregates studied by small‐angle neutron‐scattering. Physical Review B 33: 269–275.

37 37. Benoit, H. (1957). La diffusion de la lumière par des macromolécules en chaînes en solution dans un bon solvant. Comptes Rendus Hebdomadaires des Seances de l'Academie des Sciences 245: 2244–2247.

38 38. Hammouda, B. (2010). Analysis of the Beaucage model. Journal of Applied Crystallography 43: 1474–1478.

39 39. Beaucage, G. (1995). Approximations leading to a unified exponential power‐law approach to small‐angle scattering. Journal of Applied Crystallography 28: 717–728.

40 40. Beaucage, G., Kammler, H.K., and Pratsinis, S.E. (2004). Particle size distributions from small‐angle scattering using global scattering functions. Journal of Applied Crystallography 37: 523–535.

41 41. Beaucage, G. (1996). Small‐angle scattering from polymeric mass fractals of arbitrary mass‐fractal dimension. Journal of Applied Crystallography 29: 134–146.

42 42. Anitas, E.M. (2019). Small‐Angle Scattering (Neutrons, X‐Rays, Light) from Complex Systems. Fractal and Multifractal Models for Interpretation of Experimental Data. Cham, Switzerland: Springer‐Verlag.

43 43. Teubner, M. and Strey, R. (1987). Origin of the scattering peak in microemulsions. Journal of Chemical Physics 87: 3195–3200.

44 44. Schubert, K.V., Strey, R., Kline, S.R., and Kaler, E.W. (1994). Small‐angle neutron‐scattering near Lifshitz lines ‐ transition from weakly structured mixtures to microemulsions. Journal of Chemical Physics 101: 5343–5355.

45 45. Dehsorkhi, A., Castelletto, V., Hamley, I.W., and Harris, P.J.F. (2011). Multiple hydrogen bonds induce formation of nanoparticles with internal microemulsion structure by an amphiphilic copolymer. Soft Matter 7: 10116–10121.

46 46. Berk, N.F. (1987). Scattering properties of a model bicontinuous structure with a well‐defined lengthscale. Physical Review Letters 58: 2718–2721.

47 47. Debye, P. and Bueche, A.M. (1949). Scattering by an inhomogeneous solid. Journal of Applied Physics 20: 518–525.

48 48. Debye, P., Anderson, H.R., and Brumberger, H. (1957). Scattering by an inhomogeneous solid. 2. The correlation function and its application. Journal of Applied Physics 28: 679–683.

49 49. Higgins, J.S. and Benoît, H.C. (1994). Polymers and Neutron Scattering. Oxford: Oxford University Press.

50 50. Klein, R. (2002). Interacting colloidal suspensions. In: Neutrons, X‐Rays and Light Scattering Methods Applied to Soft Condensed Matter (eds. P. Lindner and T. Zemb). Amsterdam: Elsevier.

51 51. Hansen, J.P. and Macdonald, I.R. (2013). Theory of Simple Liquids, 4th edition. London: Academic Press.

52 52. Pedersen, J.S. and Gerstenberg, M.C. (1996). Scattering form factor of block copolymer micelles. Macromolecules 29: 1363–1365.

53 53. Pedersen, J.S. and Svaneborg, C. (2002). Scattering from block copolymer micelles. Current Opinion in Colloid & Interface Science 7: 158–166.

54 54. Pringle, O.A. and Schmidt, P.W. (1971). Small‐angle x‐ray scattering from helical macromolecules. Journal of Applied Crystallography 4: 290–293.

55 55. Kerker, M. (1969). The Scattering of Light. New York: Academic.

56 56. Porte, G. (2002). Surfactant micelles and bilayers: shapes and interactions. In: Neutrons, X‐Rays and Light Scattering Methods Applied to Soft Condensed Matter (eds. P. Lindner and T. Zemb). Amsterdam: Elsevier.

57 57. Fournet, G. (1951). Etude theorique et experimentale de la diffusion des Rayons X par les ensembles denses de particules. Bulletin de la Societe Francais de Mineralogie et Cristallographie 74: 37–98.

58 58. Kratky, O. (1963). X‐ray small angle scattering with substances of biological interest in diluted solutions. Progress in Biophysics and Molecular Biology 13: 105–173.

59 59. Knoll, W., Schmidt, G., Ibel, K., and Sackmann, E. (1985). Small‐angle neutron‐scattering study of lateral phase‐separation in dimyristoylphosphatidylcholine cholesterol mixed membranes. Biochemistry 24: 5240–5246.

60 60. Glatter, O. (2018). Scattering Methods and their Application in Colloid and Interface Science, Chap.5. Amsterdam: Elsevier.

61 61. Rubinstein, M. and Colby, R.H. (2003). Polymer Physics. Oxford: Oxford University Press.

62 62. de Gennes, P.G. (1979). Scaling Concepts in Polymer Physics. Ithaca: Cornell University Press.

63 63. Schurtenberger, P. (2002). Static properties of polymers. In: Neutrons, X‐Rays and Light Scattering Methods Applied to Soft Condensed Matter (eds. P. Lindner and T. Zemb), 259–298. Amsterdam: Elsevier.

64 64. Akcasu, A.Z., Benmouna, M., and Benoit, H. (1986). Application of random phase approximation to the dynamics of polymer blends and copolymers. Polymer 27: 1935–1942.

65 65. Alamo, R.G., Londono, J.D., Mandelkern, L. et al. (1994). Phase‐behavior of blends of linear and branched polyethylenes in the molten and solid states by small‐angle neutron‐scattering. Macromolecules 27: 411–417.

66 66. Leibler, L. (1980). Theory of microphase separation in block copolymers. Macromolecules 13: 1602–1617.

67 67. Hamley, I.W. (1998). The Physics of Block Copolymers. Oxford: Oxford University Press.

68 68. Hamley, I.W. (2005). Block Copolymers in Solution. Chichester: Wiley.

Small-Angle Scattering

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