Pinar Yoldas & DIACAT
Articles on the collaboration:
Pinar Yoldas is a cross-disciplinary artist/researcher based in Durham, North Carolina. Her work develops within biological sciences through architectural installations, kinetic sculpture, sound, video and drawing with a focus on post-humanism, eco-nihilism, anthropocene and feminist technoscience.
Her solo shows include AlterEvolution, Ekavart, Istanbul (2013), An Ecosystem of Excess, Ernst Schering Project Space, Berlin (2014), An Ecosystem of Excess ; Aksioma, Ljubljana. Her group shows include ThingWorld, NAMOC National Art Museum of Beijing (2014); Transmediale Festival, Berlin (2014); Tiere und Menschen, Museum Ostwall, Dortmund (2014), Polytech Museum, Moscow (2015), ExoEvolution at ZKM (2015) and 14th Istanbul Biennial (2015).
Pinar’s residencies include the MacDowell Colony, UCross Foundation, VCCA, National Evolutionary Synthesis Center, Duke University, Quartier21 Künstlerstudio-Programm, Transmediale Villem Flusser research residency at UdK Berlin). She has been an invited speaker at Haus der Kulturen der Welt, Northwestern University, Angewandte Kunst, University of Arizona, Reed College, University of Buffalo, BacNet15, Penn State and UCLA among many others.Her work has been featured in Arte TV, Die Welt, The Creators Project, Art21 Blog, Der Spiegel, Vogue Turkey and Artlink BioArt issue to name a few. Pinar is pursuing her Phd at Duke University at the Center for Cognitive Neuroscience and Media Arts and Sciences. She holds a Bachelors of Architecture from Middle East Technical University, a Master of Arts from Bilgi University, a Master of Science from Istanbul Technical University and a Master of Fine Arts from University of California, Los Angeles where she worked at the Art|Sci Center and the UCLA Game lab. Her book An Ecosystem of Excess was published by ArgoBooks in 2014. Pinar is a 2015 Guggenheim Fellow.
Pinar will be working with DIACAT who aim to develop a completely new technology for the direct photocatalytic conversion of CO2 into fine chemicals and fuels using visible light.
Anke Krueger, University of Würzburg (DIACAT):