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Journal Articles
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. June 2025, 13(2): 021002.
Paper No: JMNM-24-1032
Published Online: December 23, 2024
Includes: Supplementary data
Image
in Patternable Joule Heat Film With Ultrafast Heating, High-Temperature, and Oxidation-Resistant Surface
> Journal of Micro and Nano Science and Engineering
Published Online: December 23, 2024
Fig. 1 Nanothermal source packaged in molten silica: ( a ) the fabrication processes of PJHF based on extreme ultraviolet lithography and direct current magnetron sputtering, ( b ) optical image of a PJHF, ( c ) SEM image of cross section of PJHF, and ( d ) Raman spectroscopy of the coating after ... More about this image found in Nanothermal source packaged in molten silica: ( a ) the fabrication process...
Image
in Patternable Joule Heat Film With Ultrafast Heating, High-Temperature, and Oxidation-Resistant Surface
> Journal of Micro and Nano Science and Engineering
Published Online: December 23, 2024
Fig. 2 Ultrafast response of PJHF: ( a ) imaging of high-speed camera of PJHF inspired by 1 ms pulse excitation, ( b ) E-heating behaviors of PJHF applied with the voltages for low 7 V and high 8 V, ( c ) cyclic E-heating behaviors of PJHF under 150 ms pulse, and ( d ) current of PJHF under cyclic... More about this image found in Ultrafast response of PJHF: ( a ) imaging of high-speed camera of PJHF insp...
Image
in Patternable Joule Heat Film With Ultrafast Heating, High-Temperature, and Oxidation-Resistant Surface
> Journal of Micro and Nano Science and Engineering
Published Online: December 23, 2024
Fig. 3 Ultrahigh temperature oxidation-resistant Joule heat film: ( a ) optical image of the PNJF under visible light illumination, ( b ) measured I as a function of V for PJHF, ( c ) long-term stability of PNJF under high temperature, and ( d ) Failure temperature of PJHF More about this image found in Ultrahigh temperature oxidation-resistant Joule heat film: ( a ) optical im...
Image
in Patternable Joule Heat Film With Ultrafast Heating, High-Temperature, and Oxidation-Resistant Surface
> Journal of Micro and Nano Science and Engineering
Published Online: December 23, 2024
Fig. 4 Applications of light and heat sources: ( a ) current response of different surface wind speed and ( b ) an optical micrograph of the display of number. Scalar bar: 100 μ m. More about this image found in Applications of light and heat sources: ( a ) current response of different...
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Technical Briefs
J. Micro Nano Sci. Eng.
Paper No: JMNM-24-1020
Published Online: December 21, 2024
Journal Articles
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. June 2025, 13(2): 021001.
Paper No: JMNM-24-1033
Published Online: December 11, 2024
Includes: Supplementary data
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 1 ( a ) Principle of grayscale display in DMD based on duty cycles between ON and OFF state, ( b ) experimental setup, ( c ) power meter sensor region comparing the projection of full rectangle (2716 × 1528 pixel 2 ) and mesh element square (50 × 50 pixel 2 ), and ( d ) freeform i... More about this image found in ( a ) Principle of grayscale display in DMD based on duty cycles between ON...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 2 Workflow of developed automated system to acquire ULGM for a given LEP More about this image found in Workflow of developed automated system to acquire ULGM for a given LEP
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 3 ( a ) Colormap of acquired full light intensity meshes for three different LEPs and ( b ) ULGMs corresponding to given LEPs More about this image found in ( a ) Colormap of acquired full light intensity meshes for three different ...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 4 Experimental validation of uniform illumination comparing collected light intensities of full white meshes to grayscale corrected meshes More about this image found in Experimental validation of uniform illumination comparing collected light i...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 5 Comparison of average difference from mean and maximum-minimum range in percentage for measured light intensities More about this image found in Comparison of average difference from mean and maximum-minimum range in per...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 6 ( a ) Top view of printed sample showing all regions for dimension measurements (scale: 1000 μ m), ( b ) samples of eliminated and considered dimensions obtained using canny edge detection algorithm in Python (scale: 500 μ m), and ( c ) histogram plots for comparison of dimensional result... More about this image found in ( a ) Top view of printed sample showing all regions for dimension measurem...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 7 Comparison of standard deviation and mean difference from intended dimension (200 μ m) More about this image found in Comparison of standard deviation and mean difference from intended dimensio...
Image
in Automated Grayscale Modulation to Enhance Digital Light Processing Fabrication Accuracy by Correcting Nonuniform Illumination
> Journal of Micro and Nano Science and Engineering
Published Online: December 11, 2024
Fig. 8 Comparison of printed width of a strut sample showing improvement in dimension in dim spot and consistent dimension in bright spot after application of ULGM for ( a ) PEGDA/PEGMEA hydrogel (more sensitive) material and ( b ) TMPTA (less sensitive) material More about this image found in Comparison of printed width of a strut sample showing improvement in dimens...
Journal Articles
Andriy Sherehiy, Douglas Jackson, Michael Sassa, Daniel Sills, Dilan Ratnayake, Ruoshi Zhang, Zhong Yang, Kevin Walsh, John Naber, Dan O. Popa
Publisher: ASME
Article Type: Research-Article
J. Micro Nano Sci. Eng. March 2025, 13(1): 011003.
Paper No: JMNM-24-1025
Published Online: November 21, 2024
Image
in Aerosol Jet and Inkjet Printing Methods for Die-Level Packaging of Custom MEMS Devices
> Journal of Micro and Nano Science and Engineering
Published Online: November 21, 2024
Fig. 1 ( a ) Nexus system additive manufacturing module integrating 6DoF positioner, IPL station, inspection station, UV curing, with, ( b ) Optomec Decathlon AJP system, and ( c ) Nordson EFD Pico Pulse printer head More about this image found in ( a ) Nexus system additive manufacturing module integrating 6DoF positione...
Image
in Aerosol Jet and Inkjet Printing Methods for Die-Level Packaging of Custom MEMS Devices
> Journal of Micro and Nano Science and Engineering
Published Online: November 21, 2024
Fig. 2 ( a ) sAFAM 3D model and ( b ) custom PCB designed for microrobot packaging with sAFAM die More about this image found in ( a ) sAFAM 3D model and ( b ) custom PCB designed for microrobot packaging...
Image
in Aerosol Jet and Inkjet Printing Methods for Die-Level Packaging of Custom MEMS Devices
> Journal of Micro and Nano Science and Engineering
Published Online: November 21, 2024
Fig. 3 Schematic view of the custom die packaging structure More about this image found in Schematic view of the custom die packaging structure
Image
in Aerosol Jet and Inkjet Printing Methods for Die-Level Packaging of Custom MEMS Devices
> Journal of Micro and Nano Science and Engineering
Published Online: November 21, 2024
Fig. 4 ( a ) Individual Bondic UV adhesive deposits on the surface of the testing PCB, produced with Nordson EFD Pico Pulse inkjet printer. Top image: general view of the droplets with scale bar corresponding to 5 mm, ( b ) magnified view of the individual droplets for trial D—left, and trial A—ri... More about this image found in ( a ) Individual Bondic UV adhesive deposits on the surface of the testing ...
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