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Introduction

Published online by Cambridge University Press:  13 November 2017

Artur Braun ,
Mmantsae Diale ,
Johan B. Malherbe  and
Max Braun
Artur Braun
Affiliation:
EmpaSwitzerland
Mmantsae Diale
Affiliation:
University of Pretoria, South Africa
Johan B. Malherbe
Affiliation:
University of Pretoria, South Africa
Max Braun
Affiliation:
University of Pretoria, South Africa
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Abstract

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Type
Jan van der Merwe: Epitaxy and the Computer Age
Information
Journal of Materials Research , Volume 32 , Issue 21: Focus Issue: Jan van der Merwe: Epitaxy and the Computer Age , 14 November 2017 , pp. 3921 - 3923
Copyright
Copyright © Materials Research Society 2017 

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References

REFERENCES

Rasmuson, M. and Zetterstrom, R.: Word population, environment and energy demands. Ambio 21, 7074 (1992).Google Scholar
Taylor, T.G. and Tainter, J.A.: The nexus of population, energy, innovation, and complexity. Am. J. Econ. Sociol. 75, 10051043 (2016).CrossRefGoogle Scholar
Bauer, E. and Van Der Merwe, J.H.: Structure and growth of crystalline superlattices: From monolayer to superlattice. Phys. Rev. B: Condens. Matter Mater. Phys. 33, 36573671 (1986).Google Scholar
Bauer, E.G., Dodson, B.W., Ehrlich, D.J., Feldman, L.C., Flynn, C.P., Geis, M.W., Harbison, J.P., Matyi, R.J., Peercy, P.S., Petroff, P.M., Phillips, J.M., Stringfellow, G.B., and Zangwill, A.: Fundamental issues in heteroepitaxy—A department of energy, council on materials science panel report. J. Mater. Res. 5, 852894 (1990).CrossRefGoogle Scholar
Frank, F.C. and Van Der Merwe, J.H.: One-dimensional dislocations. I. Static theory. Proc. R. Soc. A 198, 205216 (1949).Google Scholar
Frank, F.C. and Van Der Merwe, J.H.: One-dimensional dislocations. II. Misfitting monolayers and oriented overgrowth. Proc. R. Soc. A 198, 216225 (1949).Google Scholar
Frank, F.C. and Van Der Merwe, J.H.: One-dimensional dislocations. III. Influence of the second harmonic term in the potential representation, on the properties of the model. Proc. R. Soc. A 200, 125134 (1949).Google Scholar
Frank, F.C. and Van Der Merwe, J.H.: One-dimensional dislocations. IV. Dynamics. Proc. R. Soc. A 201, 261268 (1950).Google Scholar
Van Der Merwe, J.H.: Misfitting monolayers and oriented overgrowth. Discuss. Faraday Soc. 5, 201 (1949).CrossRefGoogle Scholar
Volmer, M. and Weber, A.: Keimbildung in übersättigten gebilden. Z. Phys. Chem. 119, 277 (1926).Google Scholar
Stranski, I.N. and Krastanow, L.: Zur Theorie der orientierten Ausscheidung von Ionenkristallen aufeinander. Monatsh. Chem. 71, 351364 (1937).Google Scholar
Teal, G. and Buehler, E.: Single-crystal germanium. Proc. IRE 40, 906909 (1952).Google Scholar
Christensen, H. and Teal, G.K.: Method of fabricating germanium bodies. U.S. Patent 2692839 A, 1951.Google Scholar
Groucher, F.S., Pearson, G.L., Sparks, M., Teal, G.K., and Shockley, W.: Theory and experiment for a germanium p–n junction. Phys. Rev. 81, 637638 (1951).Google Scholar
Binasch, G., Grünberg, P., Saurenbach, F., and Finn, W.: Enhanced magnetoresistance in layered magnetic structures with antiferromagnetic interlayer exchange. Phys. Rev. 39, 48284830 (1989).CrossRefGoogle ScholarPubMed
Grünberg, P.: Magnetic field sensor with a thin ferromagnetic layer. U.S. Patent 4949039 A, 1989.Google Scholar
Beaucarne, G., Duerinckx, F., Kuzma, I., Van Nieuwenhuysen, K., Kim, H.J., and Poortmans, J.: Epitaxial thin-film Si solar cells. Thin Solid Films 511–512, 533542 (2006).Google Scholar
Ji, L., McDaniel, M.D., Wang, S., Posadas, A.B., Li, X., Huang, H., Lee, J.C., Demkov, A.A., Bard, A.J., Ekerdt, J.G., and Yu, E.T.: A silicon-based photocathode for water reduction with an epitaxial SrTiO3 protection layer and a nanostructured catalyst. Nat. Nanotechnol. 10, 8490 (2015).Google Scholar