Source: http://www.iico.uaslp.mx/Paginas/Francisco-de-Anda.aspx
Timestamp: 2019-04-21 08:15:07+00:00

Document:
1978 Maestría en Ingeniería Eléctrica en CINVESTAV - IPN, México.
1982 Doctor-Ingeniero en Ciencia de Materiales Universidad de Paris VI, "Pierre et Marie Curie", Francia.
2. A. Joullié, F. de Anda, P. Salsac et M. Mebarki. "Diffusion du zinc dans GaAlSb et application à la photodetection infrarouge". Revue de Physique Appliquée Vol . 19, pp. 223-230, Marzo 1984.
3. J. Mimila, L. Kratena, F. Chavez and F. de Anda. "Photoluminiscence of epitaxial GaAs grown by close spaced vapor transport method". Solid State Communications. Vol. 49, No. 10, pp. 939 - 942, 1984.
4. J. A. Godines, F. de Anda, A. de Ita de la Torre, D. Rios - Jara, L. Baños y A. Canales. "Crecimiento y Caracterización de Cristales de Antimonuro de Galio". Revista Mexicana de Física. Vol. 38, No. 5 (1992) 802.
5. J. A. Godines, F. de Anda, A. Canales, L. Baños y D. Rios - Jara. "A chemical etching solution for the determination of the cristallographic orientation of GaSb by optical reflectograms", J. of the Electrochem. Soc. 141, (1994) 2220.
6. I.E. Berishev, F. de Anda, V. A. Mishournyi, J. Olvera N. D. Ilyinskaya and V. I. Vasilyev. "H2O2 : HF : C4O6H6 : H2O Etching System for Chemical Polishing of GaSb", J. of the Electrochem. Soc. Vol 142 (10), October 1995, p. L189.
7. J. A. Godines, H. R. Castillo, J. Martínez, M. E. Navarro, F. de Anda, A. Canales, J. Guzmán and Rios-Jara. "Growth of Low Etch-pit Density InSb single Crystals by the Czochralski Method. J. Cryst. Growth. 178 (1997) 422.
8. V. A. Mishournyi, F. de Anda, A. Yu. Gorbatchev, V. I. Vasiliev and N. N. Faleev, "InGaAsSb growth from Sb-rich solutions". J. Cryst. Growth. 180 (1997) 34 - 39.
9. H. Navarro-Contreras, F. De Anda-Salazar, L. Hsu, E. E. Haller. "DX-center transformation of Te donors in GaSb under hydrostatic pressure", Physical Review B, 57 (1998) 12169.
10. V. A. Mishournyi, F. de Anda, A. Yu. Gorbatchev, I. C. Hernández del Castillo and J. Nieto-Navarro. "A new LPE growth method of semiconductor heterostructures with thickness profile variation of epitaxial layers", J. of Electronic Materials 27 (1998) 1003.
11. V. A. Mishurnyi1, F. de anda, A. Yu. Gorbatchev and V. I. Vasil´ev, V. M. Smirnov and N. N. Faleev. "AlGaAsSb andAlGaInAsSb growth from Sb-rich solutions". Cryst. Res. Technol. 33 (1998) 457.
12. V. A. Mishournyi, F. de Anda, I. C. Hernández del Castillo and A. Yu. Gorbatchev. "Temperature determination by solubility measurements and a study of evaporation of volatile components in LPE". Thin Solid Films 340 (1999) 24-27.
13. H. Navarro-Contreras, F. de Anda-Salazar, J. Olvera-Hernández, L. Hsu, M. D. McCluskey, and E. E. Haller. "Shallow to deep transformation of Se donors in GaSb under hydrostatic pressure", Physical Review B, 59 (1999) 8003 - 8007.
14. V. A. Mishurnyi, F. de anda, A. Yu. Gorbatchev and V. I. Vasil´ev. "Some perspectives and peculiarities of the LPE growth of multicomponent Sb-based solid solutions from pentanary liquid phases". J. of Electronic Materials 28 (1999) 959-962.
15. J. Olvera-Hernández, F. de Anda, H. Navarro-Contreras, V. A. Mishurnyi., "High purity GaSb grown by LPE in a sapphire boat". J. Cryst. Growth. 208 (2000) 27-32.
16. A. Yu. Gorbatchev, V. A, Mishurnyi and F, de Anda. "Control of the critical supercooling in LPE". J. of Electron. Mater. 29 (2000) 1402.
17. Ruiz-Becerril, M. Hernández-Sustaita, F. de Anda, V. A. Mishurnyi, A. Yu. Gorbatchev, L. Narvaez. "Some experiments on the growth of InTlSb by LPE", J. Cryst. Growth., 241 (1-2) (2002) pp. 101-107.
18. Martinez-Juarez J, Olvera J, Diaz T, De Anda F, Escobosa A. "Study of Al0.065Ga0.935Sb avalanche photodetectors for 1.55 mu m of wavelength by liquid phase epitaxy at low temperature" SURFACE REVIEW AND LETTERS 9 (5-6): 1741-1745 OCT-DEC 2002.
20. V.A. Mishurnyi, A.Yu. Gorbatchev, F. de Anda, V.A. J. Nieto-Navarro. "Influence of Baking on the Photoluminescence Spectra of In1-xGaxAs1-yPy Solid Solutions Grown on InP Substrates". Rev. Mex. Fis. 50 (2004) 216.
21. R. Hernández-Zarazúa, M. Hernández-Sustaita, F. de Anda, V. A. Mishurnyi, A. Yu. Gorbatchev. "Investigation of the phase diagram of the Pb - Ga - Sb system", Thin Solid Films Vol. 461, No. 2 (2004) pp 233-236.
22. J. Olvera-Hernández, P. de Jesús, F. de Anda and M. Rojas-López. "Influence of substrate conductivity on layer thickness in LPE-GaAs". J. of Crystal Growth, Vol. 268, No. 3-4 (2004) 375-377.
24. M. del P. Rodríguez-Torres, A.Yu. Gorbatchev, V.A. Mishurnyi, F. de Anda, V.H. Mendez-García, R. Asomoza, Yu. Kudriavtsev and I.C. Hernandez. « Investigation of the ''composition-pulling or lattice-latching''effect in LPE ».Journal of Crystal Growth, Volume 277,No. 1-4, 2005, P. 138-142.
25. V.H. Méndez-García , A. Lastras-Martínez, A.Yu Gorbachev, V.A. Mishurnyi, F. de Anda, M. López-López, and M. Calixto-Rodríguez. "Effects of in-situ annealing processes of GaAs(100) surfaces on the molecular beam epitaxial growth of InAs quantum dots". Superficies y Vacío. 18 (2005) 1-6. Editorial SMCSV. ISSN 1665-3521.
26. J. Olvera-Hernández, J. Olvera-Cervantes, M. Rojas-López, H. Navarro-Contreras, M A Vidal and F. de Anda. "Lattice vibrations study of Ga1-xInxAsySb1-y quaternary alloys with low (In, As) content grown by liquid phase epitaxy''. International Conference on Materials for Advanced Technologies, Symposium Y, Institute of Physics Publishing. Journal of Physics: Conference Series 28 (2006) 147–150.
27. C. Soubervielle-Montalvo, I.C. Hernández, M. Sheldon, A.Yu. Gorbatchev, A.G. Rodríguez, F. de Anda, L. Zamora-Peredo, V.H. Méndez-García. "P-cracker cell temperature effects on the optical properties of AlGaInP_Be layers grown by SSMBE". J. Cryst. Growth. 301-302 (2007) 84-87.
28. R. Vargas-Sanabria, E. Rosendo, J. Martínez, T. Díaz, H. Juárez, G. García, P. Rosendo-Francisco, M. Rubín, and F. de Anda. "Study of Te diffused into GaSb by photoluminescence and HRXRD". Phys. stat. sol. (c) 4, No. 4, 1406–1410 (2007) / DOI 10.1002/pssc.200674103.
30. G. Huerta-Cuéllar, S. Guel-Sandoval, F. De Anda, V. H. Méndez, B. Torres-Loredo, A. Garnache and A. Joullié. "Photo-selective chemical etching of InAs and GaSb to manufacture microscopic mirrors". Journal of Applied Electrochemistry, 38, (2008) 269 - 271. ISSN 0021-891X (Print) 1572-8838 (Online). DOI 10.1007/s10800-007-9416-z.
31. V. A. Mishurnyi, F. de Anda, A. Yu. Gorbatchev, Yu. Kudriavtsev, V. A. Elyukhin, T. A. Prutskij, C. Pelosi, C. Bocchi, B.Y. Ber and F. E. Ortiz Vazquez. "Influence of the substrate orientation on the composition of GaxIn1−xP (x≈0.5) grown by LPE and MOCVD". Thin Solid Films 516 (2008), pp. 8092-8095.
33. F.E.Ortiz Vazquez, V.A.Mishurnyi, A.Yu.Gorbatchev, F. de Anda, V.A.Elyukhin. "GaInAs Quantum Dots (QD) Grown by Liquid Phase Epitaxy (LPE)". Journal of Physics: Conference Series 167. 2009. 012002. p.1-5. (doi:10.1088/1742-6596/167/1/012002.
34. V.H.Compeán, F. de Anda, V.A.Mishurnyi, A.Yu. Gorbatchev. "GaSb Growth from Sn Solvent at Low Temperatures by LPE". Journal of Physics: Conference Series 167. 2009. 012024. p.1-4. ( doi:10.1088/1742-6596/167/1/012024). 1/VI/2009.
35. V.A.Elyukhin, P.Rodriguez Peralta, V.A.Mishurnyi, F. de Anda. "Self-assembling conditions of 4C10Sn nanoclusters in Ge:(C, Sn)". Physica B, 404. 2009. p.. 4543-4545. (ISSN: 0921- 4526. I.F.: 0.822).
36.E. Momox-Beristain, J. Martínez-Juárez, F. de Anda, V.H. Compeán-Jasso, V.A. Mishurnyi, G. Juárez-Díaz. "Influence of substrate conductivity type on the thickness and composition of epitaxial layers grown by Liquid Phase Epitaxy". Thin Solid Films, In Press. doi:10.1016/j.tsf.2011.01.352.
37. E. Momox Beristain, J. Olvera-Hernández, J. Martínez-Juárez, F. de Anda, V.H. Compeán-Jasso, V.A. Mishurnyi, V.H. Méndez-García, G. Juárez-Díaz. "Effect of substrate conductivity on the thickness and composition of GaAlSb epitaxial layers grown by liquid phase epitaxy". Thin Solid Films, 519 (2011) 3029–3031. doi:10.1016/j.tsf.2010.12.018.
38. Ortiz F. E., Mishurnyi V., Gorbatchev A., De Anda F. and Prutskij T. "Quantum Dots obtained by LPE from under-saturated In-As liquid phases on GaAs substrates". Journal of Physics: Conference Series Volume 274, Number 1, 2011. J. Phys.: Conf. Ser. 274 012115 doi: 10.1088/1742-6596/274/1/012115.
40. Joaquina Orea-Lara, Heberto Balmori-Ramírez, F. J. de Anda-Salazar and H. Yee-Madeira. "Preparation and characterization of TiN powder by reactive milling in air" Journal of Ceramic Processing Research. Vol. 13, No. 1, pp. 86~88 (2012) 86.
41. Sánchez-Niño F. & De Anda-Salazar F. J. (2012), Automation of crystal growth system by the liquid phase epitaxy technique, IEEE Xplore Conference Publications, doi: 10.1109/ICEEE.2012.6421203.
43.V.H. Compeán-Jasso, F. de Anda, V.A. Mishurnyi, A.Yu. Gorbatchev, T. Prutskij, Yu. Kudriavtsev." Sn doped GaSb grown by liquid phase epitaxy". Thin Solid Films 548 (2013) 168–170.
44. F Sánchez-Niño, F J. De Anda Salazar. "A Hydrogen detectors Wireless network for monitoring the gas ambient in a laboratory." Journal of Physics: Conference Series 582 (2015) 012038 doi:10.1088/1742-6596/582/1/012038.
46. Sánchez Niño, F., & De Anda Salazar, F.J., Hydrogen gas detector card. Journal of Applied Research and Technology (2016), http://dx.doi.org/10.1016/j.jart.2016.03.003.
47. V.H. Compeán-Jasso, F. de Anda-Salazar, F. Sánchez-Niño, V.A. Mishurnyi, J. Martínez-Juarez. "High and abrupt breakdown voltage In0.15Ga0.85As0.14Sb0.86/GaSb junctions grown by LPE". Infrared Physics & Technology 79 (2016) 32–35. http://dx.doi.org/10.1016/j.infrared.2016.09.008.
48. E G Castillo-Baldivia, A. K. Castillo-Arvizu, V. A. Michournyi,F: J. de Anda Salazar and A. Yu. Gorbatchev. "Estimation of the instable composition aresasand its dependence on the thickness of GaInAsSb layers grown on different susbtrates" 2017 Journal of Physics: Conference Series Vol. 792 pp.012011.
F. de Anda, V. A. Mishournyi, A. Yu. Gorbatchev, J. Olvera, V. I. Vasiliev. "LPE growth of GaSb and Sb-based solid solutions". Recent Research Developments in Crystal Growth, 2(2000): p141-177.
V. A. Mishurnyi, F. de Anda and A. Yu. Gorbatechev. "Some Problems On The Phase Diagrams Research In LPE". Current Topics in Crystal Growth Research. Vol. 6, (2002) p115-125. Ed. by Research Trends, Trivandrum, India.
V. A. Mishurnyi, F. de Anda, V. A. Elyukhin, I. C. Hernandez. "Growth of Quantum-Well Heterostructures by Liquid Phase Epitaxy", Critical Reviews in Solid State and Material Sciences, Vol. 31, (2006), pp. 1 - 13, DOI: 10.1080/10408430500538695, Publisher: Taylor & Francis.
V. A. Mishurnyi, F. de Anda. "Perspectivas Generales de la Energía Solar". Ciencia y Desarrollo, Vol. 33, No. 212 (2007) 26 – 33.
V. A. Mishurnyi, F. de Anda. "Fotoelementos Solares". Ciencia y Desarrollo, Vol. 33, No. 212 (2007) 34 – 43.
V. A. Mishurnyi, F. de Anda. "Celdas Solares, Aspectos Técnicos y Económicos". Ciencia y Desarrollo, Vol. 33, No. 212 (2007) 44 – 55.
J. Olvera-Hernández, P. de Jesús, F. de Anda and M. Rojas-López. "Influence of substrate conductivity on layer thickness in LPE-GaAs". J. of Crystal Growth, Vol. 268, No. 3-4 (2004) 375-377] .
Este resultado fue citado en el libro: Liquid Phase Epitaxy. Editado por: P. Capper y M. Maulk. Wiley 2007. ISBN 978-0-470-85290-3.
E. Momox-Beristain, J. Martínez-Juárez, F. de Anda, V.H. Compeán-Jasso, V.A. Mishurnyi, G. Juárez-Díaz. "Influence of substrate conductivity type on the thickness and composition of epitaxial layers grown by Liquid Phase Epitaxy". Thin Solid Films, In Press. doi:10.1016/j.tsf.2011.01.352].
2.En México soy la única persona que hasta 1990 había crecido los semiconductores de la familia III-V GaSb e InSb monocristalinos en forma masiva, esto lo realicé utilizando la técnica de Czochralski. Para lograrlo fue necesario hacer las modificaciones adecuadas a un sistema de crecimiento que había sido usado para crecer Si. Estas modificaciones no eran evidentes y su implementación permitió el crecimiento de GaSb de una manera sencilla sin la necesidad de los procedimientos complicados que se usaban entonces en otras partes del mundo como son el encapsulado líquido o la síntesis previa del material para eliminar óxidos fuera del reactor. Casi podría asegurar que nadie más en México ha crecido en forma masiva y con cualquier técnica semiconductores III-V.

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