California NanoSystems Institute

California NanoSystems Institute interior walkways built over a parking structure, UCLA.
Elings Hall, which houses the California NanoSystems Institute, UCSB.

The California NanoSystems Institute (CNSI) is an integrated research center operating jointly at UCLA and UC Santa Barbara whose mission is to foster interdisciplinary collaborations for discoveries in nanosystems and nanotechnology; train the next generation of scientists, educators and technology leaders; and facilitate partnerships with industry, fueling economic development and the social well-being of California, the United States and the world. CNSI was created by Governor Gray Davis as part of a science and innovation initiative, it was established in 2000 with $100 million from the state of California and an additional $250 million in federal research grants and industry funding. At the institute, scientists in the areas of biology, chemistry, biochemistry, physics, mathematics, computational science and engineering are measuring, modifying and manipulating the building blocks of our world - atoms and molecules. These scientists benefit from an integrated laboratory culture enabling them to conduct dynamic research at the nanoscale, leading to significant breakthroughs in the areas of health, energy, the environment and information technology.

History

On December 7, 2000, California Governor Gray Davis announced the location of the federally sponsored California NanoSystems Institute section of the California Institutes for Science and Innovation (Cal ISI’s) initiative over satellite feed. The California legislature put forth $100 million for three research facilities to advance the future of the California economy.[1] The California NanoSystems Institute (CNSI) was selected out of the proposals along with three other Cal ISI’s: California Institute for Quantitative Biosciences (QB3), California Institute for Telecommunications and Information Technology (Cal-(IT)2), and Center for Information Technology Research in the Interest of Society (CITRIS).[2] In August, 2000, CNSI was founded on both campuses of UCSB and UCLA. Martha Krebs, the former director of the U.S. Department of Energy's Office of Science, was named the founder.

Active leaders

UCLA

The people that oversee CNSI at UCLA are broken down into 4 groups: Leaders (group of head directors), Governing Board, Executive Committee, and External Advisory Board.

Leadership

Governing Board

The Governing Board was created to advise the leaders in all scientific issues including operations and research guidance of CNSI. Also, the Governing Board helps in creating objectives for researchers to strive for in the future. Today, the Governing Board consists of 6 Deans from UCLA's schools of medicine, engineering and sciences.[4]

Executive Committee

The CNSI Executive Committee overlooks all business policy related matters. Also, the Executive Committee governs and manages any and all CNSI issues like the Governing Board. CNSI bylaws were created the Executive Committee on December 13, 2007.[5]

External Advisory Board

The CNSI External Advisory Board has been established to provide advice and guidance to the Institute Director and Co-Director in their efforts to develop the CNSI as an international center for the advancement of nanoscience and nanotechnology. The board seeks to identify innovative collaborative partnerships with industry to enhance the CNSI's impact at state, national and international levels. The board assists in defining performance expectations for the Institute and oversees regular reviews prepared by the Director and Co-Director. The board meets annually.[6]

UCSB

The people in charge of UCSB CNSI fall into 2 categories: the administrative staff and the faculty.

Administrative staff

Current research

UCLA

Research at the California NanoSystems Institute has significant impact on important areas such as energy, the environment, health- medicine, and information technology.

Energy

Nanotechnology is being implemented to promote alternate forms of renewable energy. Research in this area has led to the development of materials that work more efficiently and are more cost effective. Nanotechnology is leading the way with developments in decreasing battery size and smaller energy sources to keep up with increasingly compacted technologies demanded by the electronics industry. Researchers have discovered not only how to capture natural energy, but also how to efficiently store and use energy at the nanoscale.

Environment

Nanotechnology research is producing solutions to many of the environmental problems faced today as well as anticipating problems before they arise. Current problems include greenhouse gas emissions being discharged into the atmosphere by the combustion of fossil fuels to generate power and how to effectively use natural resources in ways that will not harm the environment. Nanotechnologies are providing many benefits as well as preserving the environment and using natural materials that will minimize the human footprint. Efforts are also under way to develop new testing and risk assessment methods to deal with the proliferation of new materials being created and catch harmful substances before damage can be done.

Health - Medicine

Nanotechnology in the arena of health and science is rapidly advancing procedures, medicines and diagnostic tools, giving hope to many patients and answers for many doctors and researchers. Nanotechnology has been used to develop sensors that aid in early cancer detection, as well as a variety of drug delivering therapeutics to treat a wide variety of diseases including heart disease and diabetes. Efforts are also under way to use nanotechnology for the treatment and outbreak management of infectious diseases.

Information Technology

New and efficient electronic technologies are making their way from science fiction to reality. Smaller chip sizes for computers and the ability to store more information and tools in electronics increases the ability and minimizes materials for information technology devices such as computers. With research in nanotechnology, innovations and inventions will become not only faster and more energy efficient, but smaller in size making it possible for more to fit into the palm of a hand or in the depth of a pocket.[8]

UCSB

Current nanotechnology research being conducted on the UCSB campus is organized into three differing fields.

Biology and biomedical

The research fields of nanobiology(nanobiotechnology) and biomedicine show promise in the connection of nanoscale science to biological/nonbiological matter. New diagnostic methods as well as new ways to administer increasingly efficient disease specific treatments are also being researched and developed.[9]

Energy efficiency

Nanotechnology has promise to help fight global warming. Nanoscale research can promise more efficient, less wasteful technologies. Also, nanoscale allows to control, transform and store energy more efficiently.[10]

Information technologies

Both UCLA and UCSB CNSI labs show potential to develop upgrades in the processing, storage, and transmission of information as well as increases in the speed of information processing.[11]

Partnerships

The California NanoSystems Institute depends on the partnerships with technological companies to help fund and run its research facilities. Partnerships fund the operation and expansions of CNSI in addition to the $250 million government research grants received in 2000. Increasing numbers of partnerships were created due to budget cuts by the state.

UCLA

CNSI has international partnerships with the Chinese Academy of Sciences, the Beijing Nano Center, the University of Tokyo, the University of Kyoto, Kyushu University, Yonsei University, Seoul National University, KAIST, University of Bristol,[12] and Zhejiang University.[13]

Founding partners

Partners that joined when the institute was originally created:

Associate partners

Partners that joined after creation:

UCSB

Educational opportunities

K-12

Both campuses offer several educational opportunities including hands-on laboratory research experience for junior high students and their teachers. These activities are done in collaboration with graduate students doing research in similar fields. UCSB scientists and researchers run family science nights at local junior highs to give families the opportunity to participate in scientific activities with their children. along with after-school engineering and science club for grades 3-8 to explore science with UCSB undergrad club leaders. CNSI also hosts research opportunities for high school juniors and local Santa Barbara teachers on UCSB campus.[15] In addition, CNSI at UCSB holds a summer program called SIMS (Summer Institute of Math and Science) to incoming freshman admitted to the school.[16]

Undergraduate

Both UCLA and UCSB contribute to various scholarships for incoming freshman. They both offer undergraduate courses that give insight to all fields and majors of math and science. Furthermore, undergraduates have the opportunity to act as club leaders and mentors to younger ages in K-12. Undergraduates also have extensive research opportunities in several fields during the year and through summer on either campus.[17] Students within CNSI's UCSB affiliation, UCSB Department of Electrical and Computer Engineering, can choose to intern or volunteer at the institute for lab experience.[18]

Graduate

Graduate opportunities are limited to:

See also

References

  1. California Launches Major Nanotechnology Research Initiative”. Foresight Update 43.December 20, 2000. <http://www.foresight.org/Updates/Update43/Update43.2.html>. 13 October 2008.
  2. Foust, Brenda. “The California Institutes for Science and Innovation”. January, 2005. The Senate Source. <http://www.universityofcalifornia.edu/senate/news/source/Calisi.pdf>. 13 October 2008.
  3. "Leadership”. <http://cnsi.ucla.edu/staticpages/leadership>. 04 March 2010.
  4. "Governing Board". <http://cnsi.ucla.edu/staticpages/board/governing>. 25 October 2008.
  5. "Executive Committee". <http://cnsi.ucla.edu/staticpages/exec-committee>. 25 October 2008.
  6. "External Advisory Board". <http://www.cnsi.ucla.edu/staticpages/board/external-advisory>. 04 March 2010.
  7. “Administrative Staff”. <http://www.cnsi.ucsb.edu/people/staff/>. 13 October 2008.
  8. "CNSI, UCLA Research". <http://www.cnsi.ucla.edu/research/>. 04 March 2010.
  9. "Biological and Biomedical". <http://www.cnsi.ucsb.edu/research/biology/index.php>. 13 October 2008.
  10. "Energy Efficiency". <http://www.cnsi.ucsb.edu/research/energy/index.php>. 13 October 2008.
  11. "Information Technologies". <http://www.cnsi.ucsb.edu/research/information/>. 13 October 2008.
  12. "Partners". <http://newsroom.ucla.edu/portal/ucla/agreement-signed-between-cnsi-154534.aspx>. 13 October 2008.
  13. "Welcome to ZCNI". <http://www.zcni.zju.edu.cn/en/main_en.html>. Retrieved 6 June 2013.
  14. "Partnerships". <http://www.cnsi.ucsb.edu/partnerships/>. 13 October 2008.
  15. "K-12". <http://www.cnsi.ucsb.edu/education/programs/k12/>. 13 October 2008.
  16. "SIMS". SIMS. Retrieved 16 February 2012.
  17. "Undergraduate". <http://www.cnsi.ucsb.edu/education/programs/ugrad/>. 13 October 2008.
  18. "CNSI" (PDF). About CNSI. CNSI. Retrieved 16 February 2012.
  19. "Graduate". <http://www.cnsi.ucsb.edu/education/programs/grad/>. 13 October 2008.

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