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Amy Prieto

April 11, 2024

Amy Prieto is a Professor of Chemistry at Colorado State University and the Founder and Chief Technical Officer of Prieto Battery.

Amy Lucia Prieto
Born
Bogotá, Colombia
Alma materWilliams College, BA, 1996
University of California, Berkeley, PhD, 2001
AwardsPECASE
Scientific career
InstitutionsColorado State University, 2012 – Present
Harvard University, 2002 – 2005
ThesisElectrodeposition of Nanostructured Thermoelectric Materials (2001)
Doctoral advisorAngelica Stacy

Education and early career edit

Prieto received her Bachelor of Arts degree in chemistry and philosophy from Williams College in 1996. There, she undertook an honors thesis entitled "The Synthesis and Characterization of Precursors to Zirconium-Containing Liquid Crystals" under the mentorship of Lee Young Park. Before beginning her doctoral work, she was a summer research fellow at Bell Labs, which she credits with fostering an appreciation for cross-disciplinary collaboration.[1] She then attended the University of California, Berkeley, where she received her PhD in inorganic chemistry in 2001. For her graduate work, she worked in the laboratory of Angelica Stacy on her thesis entitled Electrodeposition of Nanostructured Thermoelectric Materials working to synthesize solid-state materials.[1]

Following her PhD, she began a postdoctoral fellowship at Harvard University, working in the Nanoscale Science and Engineering Center in Hongkun Park's research group, where she studied and characterized the electronic properties of single molecules and nanoparticles.[1]

Research edit

In 2005, Prieto joined the faculty at Colorado State University as a synthetic chemist and materials scientist. Prieto's research program focuses on Lithium-ion batteries, as well as developing nanoparticles and nanowire structures for a variety of applications.

Prieto Battery edit

In 2009, she founded Prieto Battery.[2] The company is geared towards developing and commercializing a rechargeable battery that will last longer, charge faster, and be free of toxic or flammable materials that make up traditional batteries.[1] It took her four years to form the company and an additional five to develop a working prototype.[3] By 2014, Prieto and collaborators had created a small pilot production line in her laboratory at CSU to demonstrate their viability to larger investors.

Unlike traditional batteries, Prieto's battery is solid-state, meaning the battery uses solid electrodes and a solid electrolyte, rather than liquid or polymer gel electrolytes.[4] The battery makes use of a three-dimensional copper foam that undergoes a coating process through two electroplating steps: one to create a positively charged electrode (anode made of copper antimonide) and one to create the negatively-charged electrode (cathode).[1] Because the foam is a porous 3-dimensional material, the electroplating coats both the foam's outer surface and its pores, creating a high surface area for ion transfer. The company claims that ions travel shorter distances than in conventional batteries, increasing power density (20C)[5] and reducing charging times. This makes Prieto's battery charge faster and store more energy than lithium-ion batteries.[6][7] The batteries are lightweight, flexible, use non-toxic materials, can come in a variety of shapes, and do not overheat or catch fire.[8][5]

Investors in Prieto Battery include Stanley Ventures and Intel Capital.[7] In 2016, Prieto demonstrated her batteries to Stanley Black & Decker, using one of their 3D printers.[7]

Awards and honors edit

Selected publications edit

  • Riha, Shannon C.; Parkinson, Bruce A.; Prieto, Amy L. (2009-09-02). "Solution-Based Synthesis and Characterization of Cu 2 ZnSnS 4 Nanocrystals". Journal of the American Chemical Society. 131 (34): 12054–12055. doi:10.1021/ja9044168. ISSN 0002-7863. PMID 19673478.
  • MS Sander, AL Prieto, R Gronsky, T Sands, AM Stacy (2002) Fabrication of High-Density, High Aspect Ratio, Large-Area Bismuth Telluride Nanowire Arrays by Electrodeposition into Porous Anodic Alumina Templates. Advanced Materials. 14 (9), 665–667.
  • Prieto, Amy L.; Sander, Melissa S.; Martín-González, Marisol S.; Gronsky, Ronald; Sands, Timothy; Stacy, Angelica M. (2001-07-01). "Electrodeposition of Ordered Bi
    2    Te
    3     Nanowire Arrays". Journal of the American Chemical Society. 123 (29): 7160–7161. doi:10.1021/ja015989j. hdl:10261/31242. ISSN 0002-7863. PMID 11459497.
  • Arthur, Timothy S.; Bates, Daniel J.; Cirigliano, Nicolas; Johnson, Derek C.; Malati, Peter; Mosby, James M.; Perre, Emilie; Rawls, Matthew T.; Prieto, Amy L.; Dunn, Bruce (2011-07-01). "Three-dimensional electrodes and battery architectures". MRS Bulletin. 36 (7): 523–531. doi:10.1557/mrs.2011.156. ISSN 1938-1425. S2CID 138283425.

References edit

  1. ^ a b c d e "Amy Prieto is building safer, more powerful batteries". Chemical & Engineering News. Retrieved 2020-03-10.
  2. ^ Molella, Arthur P.; Karvellas, Anna (2015-09-15). Places of Invention. Smithsonian Institution. ISBN 978-1-935623-69-4.
  3. ^ Sofge, Erik (2014-08-12). "How to Make Battery Power More Powerful". Popular Mechanics. Retrieved 2020-03-11.
  4. ^ Dolcourt, Jessica. "Smartphone battery life: 2 problems, 4 fixes (Smartphones Unlocked)". CNET. Retrieved 2020-03-10.
  5. ^ a b Hanley, Steve (2023-05-23). "Prieto Introduces Battery That Charges In 3 Minutes". CleanTechnica. Retrieved 2023-05-25.
  6. ^ "Entrepreneur rethinks lithium-ion batteries with an eye toward storing renewable energy". Chemical & Engineering News. Retrieved 2020-03-11.
  7. ^ a b c Post, Tamara Chuang | The Denver (2017-06-18). "Your smartphone battery is going to get way better if Prieto can turn its 3-D battery into a commercial reality". The Denver Post. Retrieved 2020-03-11.
  8. ^ Martin, Richard. "Startup Prieto Manufactures Batteries Made of 3-D Foam Structures". MIT Technology Review. Retrieved 2020-03-11.
  9. ^ "President Obama Honors Early Career Scientists and Engineers". www.nsf.gov. Retrieved 2020-03-10.
  10. ^ "NSF Award Search: Award#0956011 - CAREER: Energy Storage and Conversion- Coupling the Direct Electrodeposition of Crystalline Intermetallics with Targeted Outreach to Elementary Schools". www.nsf.gov. Retrieved 2020-03-10.
  11. ^ "New Women in Science Fellowship Program, Honors Future Science Leaders – Press Releases on CSRwire.com". www.csrwire.com. Retrieved 2020-03-10.

April 11, 2024
prieto, professor, chemistry, colorado, state, university, founder, chief, technical, officer, prieto, battery, lucia, prietobornbogotá, colombiaalma, materwilliams, college, 1996university, california, berkeley, 2001awardspecasescientific, careerinstitutionsc. Amy Prieto is a Professor of Chemistry at Colorado State University and the Founder and Chief Technical Officer of Prieto Battery Amy Lucia PrietoBornBogota ColombiaAlma materWilliams College BA 1996University of California Berkeley PhD 2001AwardsPECASEScientific careerInstitutionsColorado State University 2012 PresentHarvard University 2002 2005ThesisElectrodeposition of Nanostructured Thermoelectric Materials 2001 Doctoral advisorAngelica Stacy Contents 1 Education and early career 2 Research 3 Prieto Battery 4 Awards and honors 5 Selected publications 6 ReferencesEducation and early career editPrieto received her Bachelor of Arts degree in chemistry and philosophy from Williams College in 1996 There she undertook an honors thesis entitled The Synthesis and Characterization of Precursors to Zirconium Containing Liquid Crystals under the mentorship of Lee Young Park Before beginning her doctoral work she was a summer research fellow at Bell Labs which she credits with fostering an appreciation for cross disciplinary collaboration 1 She then attended the University of California Berkeley where she received her PhD in inorganic chemistry in 2001 For her graduate work she worked in the laboratory of Angelica Stacy on her thesis entitled Electrodeposition of Nanostructured Thermoelectric Materials working to synthesize solid state materials 1 Following her PhD she began a postdoctoral fellowship at Harvard University working in the Nanoscale Science and Engineering Center in Hongkun Park s research group where she studied and characterized the electronic properties of single molecules and nanoparticles 1 Research editIn 2005 Prieto joined the faculty at Colorado State University as a synthetic chemist and materials scientist Prieto s research program focuses on Lithium ion batteries as well as developing nanoparticles and nanowire structures for a variety of applications Prieto Battery editIn 2009 she founded Prieto Battery 2 The company is geared towards developing and commercializing a rechargeable battery that will last longer charge faster and be free of toxic or flammable materials that make up traditional batteries 1 It took her four years to form the company and an additional five to develop a working prototype 3 By 2014 Prieto and collaborators had created a small pilot production line in her laboratory at CSU to demonstrate their viability to larger investors Unlike traditional batteries Prieto s battery is solid state meaning the battery uses solid electrodes and a solid electrolyte rather than liquid or polymer gel electrolytes 4 The battery makes use of a three dimensional copper foam that undergoes a coating process through two electroplating steps one to create a positively charged electrode anode made of copper antimonide and one to create the negatively charged electrode cathode 1 Because the foam is a porous 3 dimensional material the electroplating coats both the foam s outer surface and its pores creating a high surface area for ion transfer The company claims that ions travel shorter distances than in conventional batteries increasing power density 20C 5 and reducing charging times This makes Prieto s battery charge faster and store more energy than lithium ion batteries 6 7 The batteries are lightweight flexible use non toxic materials can come in a variety of shapes and do not overheat or catch fire 8 5 Investors in Prieto Battery include Stanley Ventures and Intel Capital 7 In 2016 Prieto demonstrated her batteries to Stanley Black amp Decker using one of their 3D printers 7 Awards and honors editFellow Royal Society of Chemistry 2017 Presidential Early Career Award for Scientists and Engineers 2012 9 National Science Foundation CAREER Awards 2010 10 L Oreal USA for Women in Science Fellowship 2004 11 Fellow Sigma Xi 1996Selected publications editRiha Shannon C Parkinson Bruce A Prieto Amy L 2009 09 02 Solution Based Synthesis and Characterization of Cu 2 ZnSnS 4 Nanocrystals Journal of the American Chemical Society 131 34 12054 12055 doi 10 1021 ja9044168 ISSN 0002 7863 PMID 19673478 MS Sander AL Prieto R Gronsky T Sands AM Stacy 2002 Fabrication of High Density High Aspect Ratio Large Area Bismuth Telluride Nanowire Arrays by Electrodeposition into Porous Anodic Alumina Templates Advanced Materials 14 9 665 667 Prieto Amy L Sander Melissa S Martin Gonzalez Marisol S Gronsky Ronald Sands Timothy Stacy Angelica M 2001 07 01 Electrodeposition of Ordered Bi2 Te3 Nanowire Arrays Journal of the American Chemical Society 123 29 7160 7161 doi 10 1021 ja015989j hdl 10261 31242 ISSN 0002 7863 PMID 11459497 Arthur Timothy S Bates Daniel J Cirigliano Nicolas Johnson Derek C Malati Peter Mosby James M Perre Emilie Rawls Matthew T Prieto Amy L Dunn Bruce 2011 07 01 Three dimensional electrodes and battery architectures MRS Bulletin 36 7 523 531 doi 10 1557 mrs 2011 156 ISSN 1938 1425 S2CID 138283425 References edit a b c d e Amy Prieto is building safer more powerful batteries Chemical amp Engineering News Retrieved 2020 03 10 Molella Arthur P Karvellas Anna 2015 09 15 Places of Invention Smithsonian Institution ISBN 978 1 935623 69 4 Sofge Erik 2014 08 12 How to Make Battery Power More Powerful Popular Mechanics Retrieved 2020 03 11 Dolcourt Jessica Smartphone battery life 2 problems 4 fixes Smartphones Unlocked CNET Retrieved 2020 03 10 a b Hanley Steve 2023 05 23 Prieto Introduces Battery That Charges In 3 Minutes CleanTechnica Retrieved 2023 05 25 Entrepreneur rethinks lithium ion batteries with an eye toward storing renewable energy Chemical amp Engineering News Retrieved 2020 03 11 a b c Post Tamara Chuang The Denver 2017 06 18 Your smartphone battery is going to get way better if Prieto can turn its 3 D battery into a commercial reality The Denver Post Retrieved 2020 03 11 Martin Richard Startup Prieto Manufactures Batteries Made of 3 D Foam Structures MIT Technology Review Retrieved 2020 03 11 President Obama Honors Early Career Scientists and Engineers www nsf gov Retrieved 2020 03 10 NSF Award Search Award 0956011 CAREER Energy Storage and Conversion Coupling the Direct Electrodeposition of Crystalline Intermetallics with Targeted Outreach to Elementary Schools www nsf gov Retrieved 2020 03 10 New Women in Science Fellowship Program Honors Future Science Leaders Press Releases on CSRwire com www csrwire com Retrieved 2020 03 10 Retrieved from https en wikipedia org w index php title Amy Prieto amp oldid 1218410107, wikipedia, wiki, book, books, library,

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