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For the Inventor, By the Inventor

Yu-Hwa Lo

San Diego, CA, United States of America

Yu-Hwa Lo

LinkedIn
USPTO Granted Patents = 55 

 

 

Average Co-Inventor Count = 2.3

ph-index = 20

Forward Citations = 1,183(Granted Patents)

Forward Citations (Not Self Cited) = 1,159(Dec 10, 2025)


Location History:

  • Ithaca, NY (US) (1993 - 2001)
  • La Jolla, CA (US) (2002 - 2022)
  • San Diego, CA (US) (2002 - 2023)

Company Filing History:

goldMedal35 out of 15,475 
 
University of California
 patents
silverMedal8 out of 1,521 
 
Cornell Research Foundation Inc.
 patents
bronzeMedal6 out of 6 
 
Nova Crystals, Inc.
 patents
41 out of 670 
 
Bell Communications Research, Inc.
 patents
51 out of 4 
 
Industry-Academic Cooperation Foundation of Sunchon National University
 patents
61 out of 176 
 
Applied Optoelectronics, Inc.
 patents
71 out of 2 
 
Rhevision Technology, Inc.
 patents
81 out of 894 
 
The United States Government As Represented by the Department of Veterans Affairs
 patents
91 out of 3 
 
Nanocellect Biomedical, Inc.
 patents
101 out of 1 
 
Nanovision Biosciences, Inc.
 patent
111 out of 1 
 
Compliance Decisions, Inc.
 patent
121 out of 1 
 
The Regents of the Unnersity of California
 patent
132 out of 832,843 
Other
 patents
where one patent can have more than one assignee

Years Active: 1993-2025

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Areas of Expertise:
Uncooled Infrared Photodetectors
Retinal Prostheses
Imaging Flow Cytometry
Microfluidics
Nanowire Photodetectors
Optical Detection
Fluidic Adaptive Lenses
Wireless Power Mechanisms
Signal-Encoding
Molecular Detection
High Sensitivity Nucleic Acid Detection
Semiconductor Laser Diodes
55 patents (USPTO):Explore Patents
1. 12272717 - Uncooled infrared photodetectors (2025-04-08),
2. 12239834 - Retinal prostheses (2025-03-04),
3. 12152992 - Imaging flow cytometer using spatial-temporal transformation (2024-11-26),
4. 11774362 - Imaging flow cytometer using spatial-temporal transformation (2023-10-03),
5. 11670731 - Systems, devices and methods for amplification of signals based on a cycling excitation process in disordered materials (2023-06-06),
6. 11668641 - Image-based cell sorting systems and methods (2023-06-06),
7. 11637216 - Highly efficient optical to electrical conversion devices and MElHODS (2023-04-25),
8. 11371929 - Systems, devices and methods for three-dimensional imaging of moving particles (2022-06-28),
9. 11016017 - Image-based cell sorting systems and methods (2021-05-25),
10. 10890546 - Transient induced molecular electronic spectroscopy method for study of molecule interactions (2021-01-12),
11. 10837061 - Enrichment and detection of nucleic acids with ultra-high sensitivity (2020-11-17),
12. 10788425 - Imaging flow cytometer using spatial-temporal transformation (2020-09-29),
13. 10744540 - Reversing coffee-ring effect by laser-induced differential evaporation (2020-08-18),
14. 10603493 - Integrated nanowire array devices for detecting and/or applying electrical signals to tissue (2020-03-31),
15. 10324018 - Fluidic flow cytometry devices and particle sensing based on signal-encoding (2019-06-18),

Title: Yu-Hwa Lo: Innovating Flow Cytometry in San Diego, CA

Introduction

Yu-Hwa Lo is a prominent inventor based in San Diego, California, renowned for his contributions to the field of flow cytometry. With an impressive portfolio of 45 patents, Lo has established himself as a key figure in the advancement of imaging techniques for analyzing particles and cells.

Latest Patents

Among his significant inventions is the patent for an "Imaging Flow Cytometer Using Spatial-Temporal Transformation." This innovation presents methods, systems, and devices to enhance the imaging of particles and cells via flow cytometry. The methodology involves transmitting a light beam through a fluidic channel that carries a sample containing the particles. By utilizing a spatial optical filter with a pattern of apertures, different portions of a particle can be optically encoded as they flow through the channel. This technology enables the production of image data that reveals physical characteristics of the particles, thereby advancing the capabilities and applications of flow cytometry.

Career Highlights

Throughout his career, Yu-Hwa Lo has worked with esteemed organizations, including the University of California and Nova Crystals, Inc. His experience at these institutions underscores his commitment to research and innovation, particularly in developing technologies that improve scientific understanding and medical applications.

Collaborations

Collaboration has been a significant aspect of Lo's career. Notably, he has worked alongside talented individuals such as Yuanyuan Han and Wen Qiao. These partnerships have contributed to his success and the development of groundbreaking technologies in flow cytometry.

Conclusion

Yu-Hwa Lo's contributions to the field of flow cytometry through his innovative patents have established him as a leader in the industry. His ongoing work and collaborations continue to push the boundaries of what is possible in imaging technologies, making a lasting impact in the scientific community.

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