![]() After a sabbatical year spent at the USGS in Menlo-Park, California (1994–1995), François initiated numerous international joint industry projects for reservoir appraisal (SubTrap, Sub-thrust reservoir appraisal) in the Himalayan foothills in Pakistan, in sub-Andean basins in Venezuela and Colombia, as well as in the North American Cordillera (Mexico and Canadian Rockies). Together with Magdalena Scheck-Wenderoth from GFZ, François was also leading from 2005 till 2015 the Task Force 6 on Sedimentary basins from the International Lithosphere Program (ILP, with support form IUGS and IUGG, ). Until 1995, his main research topic was the crustal architecture of the Alps and Pyrenees (Ecors program), and the petroleum systems of foreland fold-and-thrust belts in the Apennines, Carpathians, Albania, Sicily, Alaska and Venezuela. After 4 years spent with CNRS (1980–1984), he joined the French Institute of Petroleum (IFP) in 1984, and was still senior geosciences advisor at IFP Energies nouvelles (), the current name of former IFP, from 2000 to 2016, extraordinary professor at the University of Utrecht, the Netherlands, from 2012 to 2016, and member of the CNE2 (French assessment board for research and the studies into the management of radioactive waste and materials, ) from 2010 to 2016. at Paris VI University in 1979 and his “thèse d’état” in 1984 at the same university, dealing with the geodynamic evolution of the North American Cordillera in northern California and Oregon during the Mesozoic. Ultimately, readers will discover important thematic maps in this book.įrançois Roure was trained at the ENS in St-Cloud in France. In view of the strategic and economic importance of the regional geology and georesources of the Arabian Plate and Surroundings, this volume will constitute an important reference for a wide range of geoscientists interested in the geology of this region, especially those active in petroleum geosciences and related industry. This book is an important contribution to the geology of the Arabian Peninsula and its surroundings. A particular focus is given to the geology of Saudi Arabia. Numerous chapters describe some regional important geologic features and selected sedimentary basins from the Middle East, North Africa and the Arabian Peninsula domains. The book is made by a set of papers authored by geoscientists working in both academia and industry. Georesources of the Arabian Plate are also described here, including petroleum potential, reservoirs, water resources, fresh water and deep saline aquifers, as well as materials and ore deposits. Because these sedimentary basins developed in various tectonic settings, from extensional or transtensional to flexural, transpressional or compressional, their sedimentary sequences provide unique records of the regional geology. We also hope to experiment with other biomaterials for our scaffolds, such as hyaluronic acid and PCL.This book focuses on the evolution of sedimentary basins of the Arabian Plate and its surroundings. We have developed printable bioinks by optimizing formulations for: 1) sodium alginate in isolation 2) sodium alginate in combination with gelatin and 3) sodium alginate in combination with Pluronic F127. We are primarily working with alginate-based hydrogels as scaffolds for our structures. Our current bioinks are hydrogels encapsulating dispersed cells. Ongoing projects include facilitation of a multi-extruder system, algorithmic calibration of bioinks, and local temperature control for hydrogel reversibility. We work in close conjunction with the Bioinks team to develop engineering methods for incorporating vascularized tissue for three-dimensional bioprinting using the open-source RepRap 3D printing system. The Engineering Team seeks to foster the assimilation of new and novel 3D printing techniques to incorporate into our bioprinting designs. We also offer a club, where students work in project teams to develop the bioprinter and bioinks. Join us! Fill out the following form to apply for Fall 2022: (DUE SEP 11, 2022, 11:59 PM) offers a DeCal class, where students gain a strong understanding of the fundamental concepts of bioprinting, and are also able to survey the many aspects of bioprinting at the industry standard level. (4) Gain experience in industry relations and teaching (3) Develop technical skill sets in biology and engineering (2) Significantly contribute to a long-term tissue engineering project (1) Learn about the engineering challenges and applications of bioprinting Our goal is for members to creatively and experimentally engage with the field of tissue engineering beyond the classroom. Is an interdisciplinary team of undergraduates, united by an interest in the engineering and scientific processes behind the tissue engineering method of 3D bioprinting.
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