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Dr. Paul Cherukuri is Rice University’s first Vice President for Innovation. As the Chief…
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I just hit my 15 year anniversary with ATI | Advanced Technology International. 🎉 What better way to celebrate than attending the South Carolina…
I just hit my 15 year anniversary with ATI | Advanced Technology International. 🎉 What better way to celebrate than attending the South Carolina…
Liked by Paul Cherukuri
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I had the great honor to meet with Louis Brus, a visionary Rice alumnus and Nobel Prize laureate, in New York earlier this month. It's truly a…
I had the great honor to meet with Louis Brus, a visionary Rice alumnus and Nobel Prize laureate, in New York earlier this month. It's truly a…
Liked by Paul Cherukuri
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Woodside Energy’s Half-Year 2024 results are out today. Our strong performance is delivering value to shareholders and laying a foundation for…
Woodside Energy’s Half-Year 2024 results are out today. Our strong performance is delivering value to shareholders and laying a foundation for…
Liked by Paul Cherukuri
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Rice University
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Thesis: “Biomedical Studies of Single-Walled Carbon Nanotubes Using Near-Infrared Fluorescence”
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Recruited to Texas Heart Institute to launch med-tech startup before completion of M.D. Transitioned to Ph.D. program at Rice University.
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Publications
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Teslaphoresis of Carbon Nanotubes
ACS Nano
This paper introduces Teslaphoresis, the directed motion and self-assembly of matter by a Tesla coil, and studies this electro kinetic phenomenon using single-walled carbon nanotubes (CNTs). Conventional directed self-assembly of matter using electric fields has been restricted to small scale structures, but with Teslaphoresis, we exceed this limitation by using the Tesla coil’s antenna to create a gradient high-voltage force field that projects into free space. CNTs placed within the…
This paper introduces Teslaphoresis, the directed motion and self-assembly of matter by a Tesla coil, and studies this electro kinetic phenomenon using single-walled carbon nanotubes (CNTs). Conventional directed self-assembly of matter using electric fields has been restricted to small scale structures, but with Teslaphoresis, we exceed this limitation by using the Tesla coil’s antenna to create a gradient high-voltage force field that projects into free space. CNTs placed within the Teslaphoretic (TEP) field polarize and self-assemble into wires that span from the nanoscale to the macroscale, the longest thus far being 15 cm. We show that the TEP field not only directs the self-assembly of long nanotube wires at remote distances (>30 cm) but can also wirelessly power nanotube-based LED circuits. Furthermore, individualized CNTs self-organize to form long parallel arrays with high fidelity alignment to the TEP field. Thus, Teslaphoresis is effective for directed self-assembly from the bottom-up to the macroscale.
Other authorsSee publication -
Size-dependent joule heating of gold nanoparticles using capacitively coupled radiofrequency fields
Nano Research Journal
Capacitively coupled shortwave radiofrequency fields (13.56 MHz) resistively heat low concentrations (∼1 ppm) of gold nanoparticles with a thermal power dissipation of ∼380 kW/g of gold. Smaller diameter gold nanoparticles (< 50 nm) heat at nearly twice the rate of larger diameter gold nanoparticles (≥50 nm), which is attributed to the higher resistivity of smaller gold nanostructures. A Joule heating model has been developed to explain this phenomenon and provides critical insights into the…
Capacitively coupled shortwave radiofrequency fields (13.56 MHz) resistively heat low concentrations (∼1 ppm) of gold nanoparticles with a thermal power dissipation of ∼380 kW/g of gold. Smaller diameter gold nanoparticles (< 50 nm) heat at nearly twice the rate of larger diameter gold nanoparticles (≥50 nm), which is attributed to the higher resistivity of smaller gold nanostructures. A Joule heating model has been developed to explain this phenomenon and provides critical insights into the rational design and engineering of nanoscale materials for noninvasive thermal therapy of cancer.
Other authorsSee publication
Patents
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Intraluminal magneto sensor system and method of use
Issued USPTO 08212554
A system (100) including a catheter mounted magneto sensor (114), such as a superconducting quantum interference device (SQUID), and methods using the system are disclosed, where the system and method are designed to detect changes in a magnetic field in a body of interest, such as a patient, to detect changes in a magnetic field in a patient, to identify loci in a target body that accumulate magnetic particles or to identify vulnerable plague in a patient.
Other inventorsSee patent
Projects
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Teslaphoresis
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Languages
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German
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Telegu
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More activity by Paul
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Looking forward to developing the next-generation open-source software-defined radios with an all-star team from Rice, UCSD, UT Austin and Notre Dame…
Looking forward to developing the next-generation open-source software-defined radios with an all-star team from Rice, UCSD, UT Austin and Notre Dame…
Liked by Paul Cherukuri
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"Together, we aim to elevate Houston's standing as a global leader in innovation by translating groundbreaking research into real-world…
"Together, we aim to elevate Houston's standing as a global leader in innovation by translating groundbreaking research into real-world…
Liked by Paul Cherukuri
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Very honored to represent Intel Corporation on a panel discussing the future of #AI at this year’s Congressional Youth Summit in Woodlands, TX…
Very honored to represent Intel Corporation on a panel discussing the future of #AI at this year’s Congressional Youth Summit in Woodlands, TX…
Liked by Paul Cherukuri
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Modeste Gihozo Rukundo, it was a pleasure hosting you in our lab! You moved the needle (pun intended!) on our research program in a short period of…
Modeste Gihozo Rukundo, it was a pleasure hosting you in our lab! You moved the needle (pun intended!) on our research program in a short period of…
Liked by Paul Cherukuri
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Very happy for Dr. Da Som Y., a postdoctoral fellow in the group, on her new faculty position in the Mechanical Engineering Department at Chung-Ang…
Very happy for Dr. Da Som Y., a postdoctoral fellow in the group, on her new faculty position in the Mechanical Engineering Department at Chung-Ang…
Liked by Paul Cherukuri
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A memorial to an Icelandic glacier five years ago elicited greater awareness of just how many glaciers around the world had already disappeared…
A memorial to an Icelandic glacier five years ago elicited greater awareness of just how many glaciers around the world had already disappeared…
Liked by Paul Cherukuri
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MTEC | Medical Technology Enterprise Consortium is getting ready for MHSRS! Are you ready? Come visit us at booth 801 Aug 26-28t in…
MTEC | Medical Technology Enterprise Consortium is getting ready for MHSRS! Are you ready? Come visit us at booth 801 Aug 26-28t in…
Liked by Paul Cherukuri
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