Materials Synthesis and Characterization

Presentations

• Proof-of-Concept of Sterilization with a Six Nines Kill Rate (Kill Rate = 99.9999%) versus Disinfection with a Three Nines Kill Rate (Kill Rate = 99.9%) Using Ultra-Violet Irradiation at 260-280 nm Wavelengths (UV-C) Via Low Cost, Low Energy Consumption, Light Emitting Diodes

  ORAL

  Oct. 7, 2023, 1:30 PM – Oct. 7, 2023, 1:42 PM

  Publication: [1] Methicillin-Resistant Staphylococcus aureus Last Update April 2, 2023 Source: National Institutes of Health Content Source: National Center for Biotechnology Information Accessed Sep. 5th, 2023<br> https://www.ncbi.nlm.nih.gov/books/NBK482221/<br><br>[2] What is COVID-19? Last Upd. Jul 10, 2023 Source: National Center for Immunization and Respiratory Diseases (NCIRD), Division of Viral Diseases Content source: Centers for Disease Control and Prevention Accessed Sep. 4th, 2023<br>https://www.cdc.gov/coronavirus/2019-ncov/your-health/about-covid-19.html#:~:text=COVID%2D19%20(coronavirus%20disease%202019,very%20contagious%20and%20spreads%20quickly (2023).<br><br>[3] Wladyslaw Kowalski, "Ultraviolet Germicidal Irradiation Handbook UVGI for Air and Surface Disinfection", Eds. Springer (2009)<br><br>[4] Kowalski W. Performance of the UV24 Unit Against Zoonotic Pathogens. San Fernando, CA: Medical Illumination. 2017 Feb 1. http://www.medillum.com/wp-content/ uploads/2017/03/Performance-of-the-UV24-Unit-Against- Zoonotic-Pathogens.pdf<br><br>[5] Heßling M, Hönes K, Vatter P, Lingenfelder C. Ultraviolet irradiation doses for coronavirus inactivation - review and analysis of coronavirus photoinactivation studies. GMS Hyg Infect Control. 2020 May 14;15:Doc08. doi: 10.3205/dgkh000343. PMID: 32547908; PMCID: PMC7273323.<br><br>[6] Destiani, R., Templeton, M.R. and Kowalski, W., 2018. Relative ultraviolet sensitivity of selected antibiotic resistance genes in waterborne bacteria. Environmental Engineering Science, 35(7), pp.770-774.<br><br>[7] Reed NG. The History of Ultraviolet Germicidal Irradiation for Air Disinfection. Public Health Reports. 2010;125(1):15-27. doi:10.1177/003335491012500105 (https://doi.org/10.1177/003335491012500105)<br><br>[8] Yash V Soni, Kush Patel, Ashwin Suresh, Ajay Taduri, Shreyash Prakash, Nimith Gurijala, Vishesh Amin, Siddarth Jandhyala, Pranav Penmatcha, Aarush Thinakaran, Wesley Peng, Sri Swaminathan, Hemanth Yalahanka, Nicole Herbots. "Spatial and Temporal Stability of UV-C Sources Power Density in 254 nm Fluorescent Tubes Versus 260-280 nm Light-Emitting Diodes for Pathogen Eradication for Reliable UV-C Sterilization": APS March Meeting 2022, March 14–18, 2022; Chicago, IL, Bulletin of the American Physical Society, Vol. 67 (3), https://meetings.aps.org/Meeting/MAR22/Session/S04.3

  Presenters

  • Viraj Y Amin

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Arizona State University, Infinitum BioMed/ SiO2 Innovates LLC/ UV ONE Hygienics Inc.

  Authors

  • Viraj Y Amin

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Arizona State University, Infinitum BioMed/ SiO2 Innovates LLC/ UV ONE Hygienics Inc.

  • Vishesh Y Amin

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Ashwin Suresh

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc./ Arizona State University Dept. of Physics

  • Aarush Thinakaran

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  • Nimith Gurijala

    Solar GaAs/ SiO2 Innovates/ Arizona State U. Physics, Arizona State University

  • Shreyash T Prakash

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics, Infinitum BioMed LLC BP w/UV ONE Hygienics & SiO2 Innovates LLC/Solar GAAS, Arizona State University

  • Rishabh Sreepathy

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  • Srivatsan J Swaminathan

    Arizona State University, Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Riley Rane

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Dora D Suppes

    Infinitum BioMed LLC/ UV One Hygienics Inc.

  • Mark I Russell-Hill

    Infinitum BioMed LLC/ UV One Hygienics Inc.

  • Visweshwar G Swaminathan

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Arizona State University

  • Rianna N Rane

    Infinitum BioMed/ SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Wesley Peng

    Arizona State University, Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Nicole Herbots

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  • Nithish Prakash

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  View abstract →

• An Experimental Study and Modeling of Water Condensation to Eliminate Fogging on Endoscope Lenses, Using A New, Hyper-Hydrophilic Coating Called KnoxFog™

  ORAL

  Oct. 7, 2023, 1:42 PM – Oct. 7, 2023, 1:54 PM

  Publication: [1] Herbots, N., Russell-Hill, M.I., Suppes, D.D., "Fog Elimination Systems for Endoscopic Lenses, Including Surgical Scopes, Sterilizing Applicators and Anti-Fog Coatings" US Patent Pending (2023)<br><br>[2] Herbots, N. et al. "Super-Hydrophilic, Bio-compatible Anti-Fog Coating for Lenses in Closed Body Cavity Surgery…" MRS Advances 1, 2141–2146 (2016) DOI: https://doi.org/10.1557/adv.2016.474<br><br>[3] Herbots, N., Russell-Hill, M.I., Suppes, D.D., Suresh, A. P., Prakash, S. T., Swaminathan, S. J., Swaminathan, V. J., Thinakaran, A., Amin, V. Y. V., Rane, R. N., Jimenez, N. T., Dancho, E. B., Sreepathy, R., "An Experimental Study and Modeling of Water Condensation to Eliminate Fogging on Endoscope Lenses, Using New Hyper-Hydrophilic Coatings Called KnoxFog™" - to be submitted to BioInterphases, J. of Biomaterials and Biological Interphases, publ. by the American Vacuum Society, AIP (2023)<br><br>[4] Izzati Fatimah Wahab, A.R. Bushroa, Soon Wee Teck, Taium Tasneem Azmi, M.Z. Ibrahim, J.W. Lee, "Fundamentals of antifogging strategies, coating techniques and properties of inorganic materials; a comprehensive review", Journal of Materials Research and Technology, Volume 23, 2023, Pages 687-714, https://doi.org/10.1016/j.jmrt.2023.01.015<br><br>[5] Domke, M., Sonderegger, G., Kostal, E., Matylitsky V., Stroj S., "Transparent laser-structured glasses with superhydrophilic properties for anti-fogging applications.", Appl. Phys. A 125, 675 (2019). DOI:10.1007/s00339-019-2953-6

  Presenters

  • Ashwin Suresh

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc./ Arizona State University Dept. of Physics

  Authors

  • Ashwin Suresh

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc./ Arizona State University Dept. of Physics

  • Shreyash T Prakash

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics, Infinitum BioMed LLC BP w/UV ONE Hygienics & SiO2 Innovates LLC/Solar GAAS, Arizona State University

  • Srivatsan J Swaminathan

    Arizona State University, Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Visweshwar G Swaminathan

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Arizona State University

  • Aarush Thinakaran

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  • Viraj Y Amin

    Infinitum BioMed / SiO2 Innovates LLC/ UV One Hygienics Inc., Arizona State University, Infinitum BioMed/ SiO2 Innovates LLC/ UV ONE Hygienics Inc.

  • Rianna N Rane

    Infinitum BioMed/ SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Nimith Gurijala

    Solar GaAs/ SiO2 Innovates/ Arizona State U. Physics, Arizona State University

  • Nicholas T Jimenez

    Infinitum BioMed/ SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Ethan B Dancho

    Infinitum BioMed/ SiO2 Innovates LLC/ UV One Hygienics Inc.

  • Rishabh Sreepathy

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  • Dora D Suppes

    Infinitum BioMed LLC/ UV One Hygienics Inc.

  • Mark I Russell-Hill

    Infinitum BioMed LLC/ UV One Hygienics Inc.

  • Nicole Herbots

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  View abstract →

• Ultrafast reversible self-assembly of living tangled matter

  ORAL

  Oct. 7, 2023, 1:54 PM – Oct. 7, 2023, 2:06 PM

  Publication: Ultrafast reversible self-assembly of living tangled matter (Science 2023)

  Presenters

  • Vishal P Patil

    Stanford University

  Authors

  • Vishal P Patil

    Stanford University

  • Harry Tuazon

    Georgia Institute of Technology

  • Emily G Kaufman

    Georgia Institute of Technology

  • Tuhin Chakrabortty

    Georgia Institute of Technology

  • David Qin

    Georgia Institute of Technology

  • Jorn Dunkel

    Massachusetts Institute of Technology

  • Saad Bhamla

    Georgia Institute of Technology

  View abstract →

• Enhancing Surface Anisotropy of LiTaO3 (110) and LiNbO3 Piezoelectrics via Surface Energy Engineering (SEE) for Nano-Bonding™ to Si and SiO2 at T &lt; 453 K.

  ORAL

  Oct. 7, 2023, 2:06 PM – Oct. 7, 2023, 2:18 PM

  Publication: [1] Terzopoulos, G. et al., "Voice Assistants and Smart Speakers in Everyday Life and in Education,".<br>Informatics in Education, 2020, Vol. 19, No. 3, 473–490. doi: 10.15388/infedu.2020.21 (2020)<br>[2] Contreras, A. et al, "Principles of Acoustics," Fundamentals of Physics, Vol. 1, Encyclopedia of Life<br>Support Systems<br>[3] Kinsler, L. E. Chapter 1 - Fundamentals of Vibration. In Fundamentals of acoustics. New York: Wiley<br>(2000).<br>[4] Crocker, M. Fundamentals of Acoustic and Noise. In Handbook of Noise and Vibration Control. New<br>York: Wiley (2007).<br>[5] Thompson, D. Fundamentals of Acoustics. In Fundamentals of Sound and Vibration. CRC Press<br>(2015).<br>[6] Yu, Y. et al., "Research on Speech Recognition Technology and Its Application," 2012 International<br>Conference on Computer Science and Electronics Engineering, pp. 306-309, doi:<br>10.1109/ICCSEE.2012.359 (2012)<br>[7] Tim, M. et al., Chapter 5 - Microphones. In Acoustics: Sound fields and transducers (pp. 199-240).<br>Elsevier Science Publishing. http://dx.doi.org/http://dx.doi.org/10.1016/B978-0-12-391421-7.00005-1<br>(2012)

  Presenters

  • Shreyash T Prakash

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics, Infinitum BioMed LLC BP w/UV ONE Hygienics & SiO2 Innovates LLC/Solar GAAS, Arizona State University

  Authors

  • Shreyash T Prakash

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics, Infinitum BioMed LLC BP w/UV ONE Hygienics & SiO2 Innovates LLC/Solar GAAS, Arizona State University

  • Nimith Gurijala

    Solar GaAs/ SiO2 Innovates/ Arizona State U. Physics, Arizona State University

  • Shefali Prakash

    Harvard University

  • Mohammed Sahal

    Arizona State University

  • Abbie Elison

    Cornell University

  • Brian Baker

    Arizona State University

  • Saaketh R Narayan

    Arizona State University

  • Lauren M Puglisi

    Arizona State University

  • Robert J Culbertson

    Arizona State University

  • Nicole Herbots

    Infinitum BioMed/ SiO2 Innovates/ Arizona State U. Physics

  View abstract →

• Prediction of phase transition and ignition sensitivity of ammonium periodate

  ORAL

  Oct. 7, 2023, 2:18 PM – Oct. 7, 2023, 2:30 PM

  Publication: The initial calculations are published here:<br> J. Phys. Chem. C 2022, 126, 21723−21733. <br>The advances presented here are soon to be published with the same title.

  Presenters

  • Armando S de Rezende

    Texas Tech University

  Authors

  • Armando S de Rezende

    Texas Tech University

  • Michelle L Pantoya

    Texas Tech University

  • Daniel Tunega

    University of Natural Resources and Life Sciences

  • Adelia A Aquino

    Texas Tech University

  View abstract →

• Conductivity measurements of Heusler Alloys foruse as superconductors in magnetic memory

  ORAL

  Oct. 7, 2023, 2:30 PM – Oct. 7, 2023, 2:42 PM

  Presenters

  • Alfred J Arellano Galvan

    California State University, San Bernardino

  Authors

  • Alfred J Arellano Galvan

    California State University, San Bernardino

  View abstract →

• The Environment About High Concentration Dopants in Fe₂O₃: Substitution Vs. Precipitation

  ORAL

  Oct. 7, 2023, 2:42 PM – Oct. 7, 2023, 2:54 PM

  Presenters

  • Kiley Mayford

    University of California Santa Cruz

  Authors

  • Kiley Mayford

    University of California Santa Cruz

  • Frank G Bridges

    University of California, Santa Cruz

  • Yuan Ping

    University of California, Santa Cruz

  • Yat Li

    University of California Santa Cruz

  • Samuel Mcnair

    University of California Santa Cruz

  • Mingpeng Chen

    University of California Santa Cruz

  • Bin Yao

    University of Southern California

  • Andrew Grieder

    University of California Santa Cruz

  View abstract →

• An Overview of Carbon-Related Spin Defects in Hexagonal Boron Nitride

  ORAL

  Oct. 7, 2023, 2:54 PM – Oct. 7, 2023, 3:06 PM

  Presenters

  • Ariana Lerena Riofrio

    Santa Clara University

  Authors

  • Ariana Lerena Riofrio

    Santa Clara University

  • Chong Zu

    Washington University in St. Louis

  View abstract →

• X-ray diffraction study of thin-film samples of the Dirac semimetal SrMnSb₂

  ORAL

  Oct. 7, 2023, 3:06 PM – Oct. 7, 2023, 3:18 PM

  Presenters

  • Leyang Ding

    Santa Clara University

  Authors

  • Leyang Ding

    Santa Clara University

  View abstract →

• Effect of Fine Structure Constant on Lattice Constant and Thermal Expansion of Crystalline Silicon, as a Probe for Dark Matter

  ORAL

  Oct. 7, 2023, 3:18 PM – Oct. 7, 2023, 3:30 PM

  Presenters

  • Leticia M Ramos

    California State University, Fresno

  Authors

  • Leticia M Ramos

    California State University, Fresno

  • Arabi Seshappan

    University of California, Merced

  • David A Strubbe

    University of California, Merced

  View abstract →

• Low-temperature circuit component characterization and nanofabrication process tuning for cryogenic dark matter detectors

  ORAL

  Oct. 7, 2023, 3:30 PM – Oct. 7, 2023, 3:42 PM

  Presenters

  • Riley J Carpenter

    Santa Clara University

  Authors

  • Riley J Carpenter

    Santa Clara University

  • Zoe J Smith

    Stanford University; SLAC National Accelerator Laboratory; Kavli Institute for Particle Astrophysics & Cosmology, Stanford University

  • Jadyn Anczarski

    Stanford University; SLAC National Accelerator Laboratory; Kavli Institute for Particle Astrophysics & Cosmology, Stanford University

  • Ivar Rydstrom

    Santa Clara University

  • Betty Young

    Santa Clara University

  • Noah Kurinsky

    SLAC National Accelerator Laboratory; Kavli Institute for Particle Astrophysics & Cosmology, SLAC National Accelerator Laboratory

  View abstract →