Vikas Berry

Vikas Berry (born 1977, Pune, India) is an Indian-American scientist, engineer, and academic. Berry is the head of the department of chemical engineering at the University of Illinois Chicago.[1][2] He held the William H. Honstead endowed professorship at the Kansas State University from 2011 to 2014.[3] Berry is a prolific researcher and an expert in the areas of bio-interfaced two-dimensional materials and 2D nanostructures (such as graphene and graphene nanoribbons).[4][5][6][7][8][9][10]

Vikas Berry
Born1977 (age 4344)
EducationChemical Engineering
Alma materVirginia Tech, University of Kansas, Indian Institute of Technology Delhi
Known forIntegrating Biology with 2D Nanomaterials
Scientific career
FieldsGraphene and 2D Nanomaterials
InstitutionsUniversity of Illinois Chicago, Department of Chemical Engineering
Doctoral advisorRavi Saraf
Websitehttps://vikasb.people.uic.edu/

Research

Berry has contributed to many research areas. He has developed several bionanotechnologies, including cancer detectors, ALS sensors, microbial fuel cells, biocompatible papers, and DNA-transistors.[4][5][6] He has also developed novel nano-devices such as ultrafast detectors, photodetector, sodium-ion batteries, 3D printing gels, Raman enhancer, IR-sensor, molecular machines, and graphene liquid cells for TEM.[7][8][9] Berry has also contributed to 2D material science and technology, including nanotomy, 2D synthesis and growth,[10] non-destructive graphene functionalization, boron nitride chemistries, gold nanostructures, microwave induced reduction and nanocrystallization, wrinkles in 2D nanomaterials,[11] and 2D Composites[12]

Berry's research has been covered by several national publications, including The Economist,[5] Washington Post,[4] Wall Street Journal,[6] The Engineer,[7] Zee News,[13] New Electronics,[14] Nature,[8] and other outlets[9][15][16][17]

References
  1. "Berry Research Laboratory, Vikas Berry".
  3. "Nanotechnology Now - Press Release: Researchers use graphene quantum dots to detect humidity and pressure".
  4. Miller, Michael E. "Those nanobots from 'The X-Files' are now a real thing" via www.washingtonpost.com.
  5. "Bugs in the system" via The Economist.
  6. "A Tiny Robot Senses Humidity". March 27, 2015 via www.wsj.com.
  7. Ford, Jason. "Gold standard for future electronic devices | The Engineer The Engineer". Theengineer.co.uk. Retrieved 2021-01-29.
  8. Brumfiel, Geoff (March 18, 2010). "It's a wrap for bacteria". Nature: news.2010.134. doi:10.1038/news.2010.134 via DOI.org (Crossref).
  10. "An Introduction to Trickle-Down Graphene". AZoNano.com. August 24, 2018.
  11. Deng S, Sumant AV, Berry V (2018). "Strain engineering in two-dimensional nanomaterials beyond graphene". Nano Today. 22: 14–35. doi:10.1016/j.nantod.2018.07.001.
  12. Debbarma R, Behura S, Nguyen P, Sreeprasad TS, Berry V (2016). "Electrical transport and network percolation in graphene and boron nitride mixed-platelet structures". ACS Applied Materials & Interfaces. 8 (13): 8721–8727. doi:10.1021/acsami.6b01976. PMID 27002378.
  13. "Improved sensing devices may someday tell if it will rain on Mars". Zee News. May 12, 2013.
  14. "US researchers make graphene breakthrough". www.newelectronics.co.uk.
  15. "Nanotechnology Now - Press Release: Connecting materials science with biology, K-State engineers create DNA sensors that could identify cancer using material only one atom thick". www.nanotech-now.com.
  16. "Graphene Used As Floating-Molecular Carpet To Ornament It With 24-Carat Gold 'Snowflakes'". phys.org.
  17. "LIGHT MATTERS 03.30.2011". YouTube. Retrieved 2021-01-29.
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