Fasoli, H.J.; Yonni, F.; Testa, J.J."Properties of antimony triiodide photodecomposition and Lewis acidity " (2017) Educacion Quimica. 28(1):11-13
Estamos trabajando para incorporar este artículo al repositorio
Consulte el artículo en la página del editor
Consulte la política de Acceso Abierto del editor


Antimony triiodide is a versatile compound that is not studied in detail in the current Inorganic Chemistry literature at the undergraduate level. In this work we propose a simple microscale synthesis describing two other interesting properties which are not reported in the common chemical literature: photo-oxidation and acid–base reaction in non-aqueous media. The experiment can be successfully and safely achieved in a two-hour lab class at the sophomore level. © 2016 Universidad Nacional Autónoma de México, Facultad de Química


Documento: Artículo
Título:Properties of antimony triiodide photodecomposition and Lewis acidity
Autor:Fasoli, H.J.; Yonni, F.; Testa, J.J.
Filiación:Facultad de Ciencias Exactas y Naturales, Universidad Nacional de Catamarca, San Fernando del Valle, Catamarca, Argentina
Facultad de Ciencias Fisicomatemáticas e Ingeniería, Universidad Católica Argentina, Buenos Aires, Argentina
Facultad de Ingeniería, Universidad de Buenos Aires, Buenos Aires, Argentina
Palabras clave:Antimony triiodide; Lewis acids and bases; Microscale synthesis; Photo-oxidation
Página de inicio:11
Página de fin:13
Título revista:Educacion Quimica
Título revista abreviado:Educ. Quim.


  • Abdel-Shafi, A., Wilkinson, F., Charge transfer effects on the efficiency of singlet oxygen production following oxygen quenching of excited singlet and triplet states of aromatic hydrocarbons in acetonitrile (2000) Journal of Physical Chemistry A, 104 (24), pp. 5447-5757
  • Bharathi Mohan, D., Philip, A., Sunandana, C.S., Iodization of antimony thin films: XRD, SEM and optical studies of nanostructured SbI3 (2008) Vacuum, 82 (6), pp. 561-565
  • Chung, D., Hogan, T., Rocci-Lane, M., Brazis, P., Kannewurf, M., Bastea, M., CsBi4Te6: A high-performance thermoelectric material for low-temperature applications (2000) Science, 287 (5455), pp. 1024-1027
  • Darmanyan, A., Lee, W., Jenks, W., Charge transfer interactions in the generation of singlet oxygen by strong electron donors (1999) Journal of Physical Chemistry A, 103 (15), pp. 2705-2711
  • Guerrero, A., Fasoli, H., Determinación Directa de Antimonio (1987) Actas del XVIII Congreso Argentino de Química, Corrientes
  • Guerrero, A., Fasoli, H., Determinacion Directa de Antimonio (III) por Rodamina B (1988) Boletín de la Sociedad Química del Perú, 54, pp. 33-37
  • Kepinska, M., Nowak, M., Duka, P., Kotyczka-Morańska, M., Szperlich, P., Optical properties of SbI3 single crystalline platelets (2011) Optical Materials, 33 (11), pp. 1753-1759
  • Kepinska, M., Starczewska, A., Bednarczyk, I., Szala, J., Szperlich, P., Mistewicz, K., Fabrication and characterisation of SbI3-opal structures (2014) Materials Letters, 130, pp. 17-20
  • Kirk, Othmer, (1992) Encyclopedia of Chemical Technology, 3, pp. 389-390. , 4th ed. Bushy et al. (eds.) John Wiley & Sons New York
  • Mady, K., Eid, A., Soliman, W., Electrical conductivity of antimony triiodide (1987) Journal of Materials Science Letters, 6 (2), pp. 211-213
  • Mellor, J.W., (1947) A comprehensive treatise on inorganic and theoretical chemistry, Vol. IX, p. 500. , Longmans, Greens & Co. London
  • Nobrega, A., Espínola, J., Fonseca, M., Arakaki, L., de Oliveira, S., (2007) Thermochimica Acta, 456 (2), pp. 102-105
  • Pereira dos Santos, A., Fonseca, M., Espínola, J., de Oliveira, S., Arakaki, L., Adducts of antimony triiodide and 2-aminomethylpyridines: Synthesis, characterization and thermochemistry (2005) Thermochimica Acta, 438 (1-2), pp. 90-94
  • Remy, H., (1956) Treatise on inorganic chemistry, 1, p. 670. , Elsevier Publishing Co. New York
  • Roesky, H., Mockel, K., Chemical curiosities (1996), p. 60. , VCH Weinheim; Sethy, M., Raghavan, P., Concepts and problems in inorganic chemistry (1998), p. 164. , Discovery Publishing House New Delhi; Shriver, D., Atkins, P., Langford, C., Inorganic chemistry (1996), p. 449. , Oxford University Press Oxford; Wells, A., Structural inorganic chemistry (1962), p. 663. , Oxford Clarendon Press


---------- APA ----------
Fasoli, H.J., Yonni, F. & Testa, J.J. (2017) . Properties of antimony triiodide photodecomposition and Lewis acidity . Educacion Quimica, 28(1), 11-13.
---------- CHICAGO ----------
Fasoli, H.J., Yonni, F., Testa, J.J. "Properties of antimony triiodide photodecomposition and Lewis acidity " . Educacion Quimica 28, no. 1 (2017) : 11-13.
---------- MLA ----------
Fasoli, H.J., Yonni, F., Testa, J.J. "Properties of antimony triiodide photodecomposition and Lewis acidity " . Educacion Quimica, vol. 28, no. 1, 2017, pp. 11-13.
---------- VANCOUVER ----------
Fasoli, H.J., Yonni, F., Testa, J.J. Properties of antimony triiodide photodecomposition and Lewis acidity . Educ. Quim. 2017;28(1):11-13.