"I have nothing to say, only to show": appropriation in the poetries of Trevor Joyce, Alan Halsey, and Susan Howe

This thesis studies contemporary poetry’s innovations in textual borrowing and the range and scope of its appropriative practices. The restrictions of the inherited definitions of appropriation include a limited capacity for expression and meaningfulness, a partial concept of appropriation’s critical capacity, and an inadequate sense of the poet’s individual and unique practice of appropriation. This thesis resolves the problematic constraints limiting contemporary definitions of appropriation by tracing the history of the practice to reveal an enduring relation between appropriation and poetic expression. Close readings of Trevor Joyce’s, Alan Halsey’s, and Susan Howe’s poetry serve as evidence of contemporary poetry’s development of appropriation beyond the current ascriptions and offer some direction on how the critical understanding of appropriation might be extended and redefined. Here, appropriation is recognized as another source of lyric expression, critical innovation, and conceptual development in contemporary poetry. This thesis encourages a new perspective on the purpose and processes of poetic appropriation and the consequences of its declarative potential for both poet and poem.

Photocatalytic activities of tin(IV) oxide surface-modified titanium(IV) dioxide show a strong sensitivity to the TiO 2 crystal form

Surface modification of rutile TiO2 with extremely small SnO2 clusters gives rise to a great increase in its UV light activity for degradation of model organic water pollutants, while the effect is much smaller for anatase TiO2. This crystal form sensitivity is rationalized in terms of the difference in the electronic modification of TiO2 through the interfacial Sn−O−Ti bonds. The increase in the density of states near the conduction band minimum of rutile by hybridization with the SnO2 cluster levels intensifies the light absorption, but this is not seen with modified anatase. The electronic transition from the valence band to the conduction band causes the bulk-to-surface interfacial electron transfer to enhance charge separation. Further, electrons relaxed to the conduction minimum are smoothly transferred to O2 due to the action of the SnO2 species as an electron transfer promoter.