The fuels of the future will be clean, renewable, and secure. ASU has long been a leader in renewable energy, particularly in developing of solar energy in a variety of useful forms. Current projects include cutting-edge and applied research in photovoltaic materials and systems, photosynthetic biofuels, and algae-based fuels, as well as research on policy and decision-making related to renewable energy.
The Biodesign Center for Immunotherapy, Vaccines and Virotherapy (B-CIVV) is focused on exploiting cutting edge advances in microbiology and immunology, as well as the design and use of novel therapeutics based on vaccinology, virotherapy and immunotherapy to combat infectious diseases and cancer. These include development of biological therapeutics that enhance immune responses to pathogens and tumors. The Center is devising new and effective ways of producing advanced vaccines, virotherapies and immunotherapeutics for this purpose.
The Biodesign Institute plays a critical role in advancing the research mission of Arizona State University, a comprehensive metropolitan university that is the second largest in the U.S. The Biodesign Institute embodies the guiding principles of the New American University, as defined by Arizona State University President Michael Crow, specifically, to conduct use-inspired research, fuse intellectual disciplines and value entrepreneurship.
The Biodesign Swette Center for Environmental Biotechnology manages microbial communities that provide services to society. Most of the services make our society more environmentally sustainable: e.g., generating renewable energy, and making polluted water and soil clean. The microbial services also make humans healthier – directly and indirectly.
The center carries out frontier multidisciplinary scientific research designed to use biological and biologically-based artificial systems to address societal energy needs in a sustainable manner, with an emphasis on solar energy conversion and bioinspired energy transformation to meet human needs, and investigates other aspects of photosynthesis that affect society and the environment.
Through interdisciplinary projects integrating natural sciences, social science, and engineering, the Central Arizona–Phoenix Long-Term Ecological Research project examines the effects of urbanization on a desert ecosystem and vice versa.
The Climate Engineering Governance Initiative (CEGI) serves as a platform for collaboration and coordination among people at ASU and beyond who are engaged in policy, law, markets and other aspects of climate engineering and carbon dioxide removal strategies. Governance refers to the way human action evolves and takes shape, with what kinds of rules, cultures, and norms. CEGI’s mission is to foster critical research into the nuts and bolts of governance in this rapidly changing field and, through collaborations with partners nationally and globally, bring more clarity to these issues and meaningfully engage scientists, scholars, decision-makers and citizens.
The Decision Theater Network actively engages researchers and leaders to visualize solutions to complex problems. The Network provides the latest expertise in collaborative, computing and display technologies for data visualization, modeling, and simulation. The Network addresses cross-disciplinary local, national and international issues by drawing on Arizona State University’s diverse academic and research capabilities.
ESPI's objective is to to establish a strong program of research and policy engagement to understand and analyze the social dynamics of past, present, and future energy systems.
ASU LightWorks® is a multidisciplinary effort to leverage ASU's unique strengths, particularly in renewable energy fields including artificial photosynthesis, biofuels, and next-generation photovoltaics.
The multidisciplinary expertise of PSERC's researchers includes power systems, applied mathematics, complex systems, computing, control theory, power electronics, operations research, non-linear systems, economics, industrial organization and public policy. In addition a strength of the research work in this area also relates to market tools and policy issues that will enable the integration of the new energy sources into power system operation and planning.
A major societal challenge is to generate terawatts (TWs) of electricity with minimal environmental impact. The Quantum Energy and Sustainable Solar Technologies (QESST) Engineering Research Center will transform the existing electricity generation system towards a sustainable and ubiquitous one by developing photovoltaic (PV) technologies with higher efficiency and novel functionality.
Arizona State University's Solar Power Lab serves a staging ground for the new technologies and ideas that will move us forward in our quest for a more sustainable society.
Founded in 2015, the Spirituality and Sustainability Initiative (SSI) integrates perspectives on sustainability and innovation with an awareness of the sources, dynamics, significance, and meaning of values and ethical convictions for driving aspiration and action, and as factors in personal and collective resilience. In other words, the kinds of questions and commitments associated with spirituality not only fit with but are intrinsic to a comprehensive and holistic approach to sustainability. SSI is a secular, non-sectarian effort, defining spirituality broadly to include humanistic values and informal modes of spirituality as well as established religious traditions.