Analysis and control of bubble generation in solid state nanopores

2022 Fiscal Year Annual Research Report

• Project/Area Number: 20J22422
• Research Institution: The University of Tokyo
• Principal Investigator: PAUL SOUMYADEEP 東京大学, 工学系研究科, 特別研究員(DC1)
• Project Period (FY): 2020-04-24 – 2023-03-31
• Keywords: Solid-state nanopore / Joule heating / Nanoscale boiling / Resistive pulse sensing / Acoustic sensing / Bubble emitter / Confinement effect / Nanopore boiling curve

Outline of Annual Research Achievements

Despite the multi-scale nature of boiling, much less is known about nanoscale boiling due to the inherent difficulty of capturing the nanosecond resolution dynamics below the Abbe diffraction limit using traditional imaging techniques. To address this fundamental problem, we studied boiling inside nanopore through Joule heating, using resistive pulse sensing and acoustic sensing for vapor bubble detection at megahertz bandwidth.
Based on current and acoustic signals, we characterized nucleate, transition and film boiling inside solid-state nanopores. Nucleate boiling comprised of periodic nucleation of homogeneous vapor nanobubbles, which were ultimately emitted from the nanopore. When the Joule heat dissipation was intensified with voltage increase, a nano-torus vapor film blanketed the pore surface. The variation in boiling regimes (bifurcations) with increasing bias voltages was summarized in a nanopore boiling curve.
For certain pore sizes, we also found a novel reverse transition from film to nucleate boiling, when the voltage was increased beyond a critical value. These results were attributed to confinement effects originating from contact-line pinning, diffusion-ballistic heat transport and focused Joule heating. These findings were summarized in a journal paper (Paul et al. 2022 Phys. Rev. Research 4, 043110) and the candidate’s doctoral dissertation, which was successfully defended on August 5, 2022.

Research Progress Status

令和4年度が最終年度であるため、記入しない。

Strategy for Future Research Activity

令和4年度が最終年度であるため、記入しない。

Research Products

• [Journal Article] Boiling in nanopores through localized Joule heating: Transition between nucleate and film boiling (2022)
  • Author(s): Paul Soumyadeep、Hsu Wei-Lun、Ito Yusuke、Daiguji Hirofumi
  • Journal Title: Physical Review Research Volume: 4 Pages: 043110
  • DOI: 10.1103/PhysRevResearch.4.043110
  • Peer Reviewed / Open Access / Int'l Joint Research
• [Presentation] A Study on Boiling inside Nanopores through Localized Joule Heating (2022)
  • Author(s): Paul Soumyadeep、Hsu Wei-Lun、Ito Yusuke、Daiguji Hirofumi
  • Organizer: Division of Fluid Dynamics American Physical Society
  • Int'l Joint Research
• [Presentation] Boiling in a Cylindrical Nanopore (2022)
  • Author(s): Paul Soumyadeep、Hsu Wei-Lun、Ito Yusuke、Daiguji Hirofumi
  • Organizer: Mac-UoT-UT Workshop, 2022
  • Int'l Joint Research
• [Presentation] Boiling inside Nanopores through Localized Joule Heating (2022)
  • Author(s): Paul Soumyadeep、Hsu Wei-Lun、Ito Yusuke、Daiguji Hirofumi
  • Organizer: JSME Thermal Engineering Conference
• [Presentation] Thermal Evaluation of Heterogeneous Vapor Nanobubbles inside Nanopores (2022)
  • Author(s): Nag Sarthak、Paul Soumyadeep、Hsu Wei-Lun、Daiguji Hirofumi
  • Organizer: JSME Thermal Engineering Conference
• [Presentation] Bubble Seed Generation inside Solid State Nanopores (2022)
  • Author(s): Paul Soumyadeep、Ito Yusuke、Hsu Wei-Lun、Daiguji Hirofumi
  • Organizer: JSME Annual Conference
• [Presentation] Acoustic Sensing of Single Homogeneous Nanobubbles inside Solid State Nanopores (2022)
  • Author(s): Paul Soumyadeep、Ito Yusuke、Hsu Wei-Lun、Daiguji Hirofumi
  • Organizer: 59th National Heat Transfer Symposium