Smart Solution Chemistry to Sn-Containing Intermetallic Compounds through a Self-Disproportionation Process
Artikel i vetenskaplig tidskrift, 2016

Developing new methods to synthesize intermetallics is one of the most critical issues for the discovery and application of multifunctional metal materials; however, the synthesis of Sn-containing intermetallics is challenging. In this work, we demonstrated for the first time that a self-disproportionation-induced in situ process produces cavernous Sn−Cu intermetallics (Cu3Sn and Cu6Sn5). The successful synthesis is realized by introducing inorganic metal salts (SnCl2⋅2 H2O) to NaOH aqueous solution to form an intermediate product of reductant (Na2SnO2) and by employing steam pressures that enhance the reduction ability. Distinct from the traditional in situ reduction, the current reduction process avoided the uncontrolled phase composition and excessive use of organic regents. An insight into the mechanism was revealed for the Sn−Cu case. Moreover, this method could be extended to other Sn-containing materials (Sn−Co, Sn−Ni). All these intermetallics were attempted in the catalytic effect on thermal decompositions of ammonium perchlorate. It is demonstrated that Cu3Sn showed an outstanding catalytic performance. The superior property might be primarily originated from the intrinsic chemical compositions and cavernous morphology as well. We supposed that this smart solution reduction methodology reported here would provide a new recognition for the reduction reaction, and its modified strategy may be applied to the synthesis of other metals, intermetallics as well as some unknown materials.


Yuelan Zhang

Liping Li

Qi Li

Chalmers, Mikroteknologi och nanovetenskap, Elektronikmaterial

Jianming Fan

Jing Zheng

Guangshe Li

Chemistry - A European Journal

0947-6539 (ISSN) 1521-3765 (eISSN)

Vol. 22 40 14196-14204



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