This set of mathematics seminars is the ideal resource for people charged with supporting teacher leaders and others who lead mathematics professional development. Potential users include curriculum leaders, math-science partnerships, university-district partnerships, and mathematics teacher educators."--BOOK JACKET.
In the nineteenth and early twentieth centuries, Mexicans and Americans joined together to transform the U.S.-Mexico borderlands into a crossroads of modern economic development. This book reveals the forgotten story of their ambitious dreams and their ultimate failure to control this fugitive terrain. Focusing on a mining region that spilled across the Arizona-Sonora border, this book shows how entrepreneurs, corporations, and statesmen tried to domesticate nature and society within a transnational context. Efforts to tame a 'wild' frontier were stymied by labour struggles, social conflict, and revolution. Fugitive Landscapes explores the making and unmaking of the U.S.-Mexico border, telling how ordinary people resisted the domination of empires, nations, and corporations to shape transnational history on their own terms. By moving beyond traditional national narratives, it offers new lessons for our own border-crossing age.
The layer-by-layer (LbL) deposition technique is a versatile approach for preparing nanoscale multimaterial films: the fabrication of multicomposite films by the LbL procedure allows the combination of literally hundreds of different materials with nanometer thickness in a single device to obtain novel or superior performance. In the last 15 years the LbL technique has seen considerable developments and has now reached a point where it is beginning to find applications in bioengineering and biomedical engineering. The book gives a thorough overview of applications of the LbL technique in the context of bioengineering and biomedical engineering where the last years have witnessed tremendous progress. The first part familiarizes the reader with the specifics of cell-film interactions that need to be taken into account for successful application of the LbL method in biological environments. The second part focuses on LbL-derived small drug delivery systems and antibacterial agents, and the third part covers nano- and microcapsules as drug carriers and biosensors. The fourth and last part focuses on larger-scale biomedical applications of the LbL method such as engineered tissues and implant coatings.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.