David A. Cleary

John N. Lalena; David A. Cleary; Everett E. Carpenter; Nancy F. Dean

Preface. 1. Crystallographic and Microstructural Considerations. 2. Chemical Energetics and Atomistics of Reactions and Transformations in Solids. 3. Solid - Vapor Reactions. 4. Solid - Liquid Reactions. 5. Solid - Solid Reactions. 6. Nanomaterials Synthesis. 7. Materials Fabrication. Appendix A1: General Mechanical Engineering Terms. Appendix A2: Green Materials Synthesis and Processing. Index.

Roger D. Willett; Ashwani Vij; Joseph M. Imhof; David A. Cleary

Abstract[Na4(H2O)14]SnS4 is obtained by the reaction of Na2S·9H2O with SnCl4·5H2O in aqueous solution at 21°C. It crystallizes in the space group Cc with a = 8.621(2) Å, b = 23.543(5) Å, c = 11.358(2) Å, β = 110.58(3)° and V = 2158.2 Å3 with Z = 2. Refinement of 3826 unique reflections from a racemically twinned crystal yielded a final value of R1 = 0.0464 (|F| > 4σ) and wR2 = 0.104 and a goodness of fit of 1.125. The structure consists of a Na+/H2O network supporting the tetrahedral SnS44− anions. Water molecules or sulfide ions octahedrally coordinate each of the four crystallographically independent Na+ ions. The dominant feature of the structure is the existence of zigzag chains of edgeshared Na octahedra. These chains are tied together into a three-dimensional network by bridging Na(H2O)6 octahedra and individual H2O molecules.

Hugh Lefcort; D. P. Abbott; David A. Cleary; E. Howell; N. C. Keller; M. M. Smith

John N. Lalena; David A. Cleary

John. N. Lalena; David A. Cleary

John. N. Lalena; David A. Cleary

John N. Lalena; David A. Cleary

Hugh Lefcort; David A. Cleary; Aaron M Marble; Morgan V Phillips; Timothy J Stoddard; Lara M Tuthill; James R Winslow

John. N. Lalena; David A. Cleary

John. N. Lalena; David A. Cleary