Kuang-Ming Shang
PHD Researcher at Caltech- Claim this Profile
Click to upgrade to our gold package
for the full feature experience.
Topline Score
Bio
Experience
-
Caltech
-
United States
-
Research Services
-
700 & Above Employee
-
PHD Researcher
-
Sep 2017 - Present
MEMS Oxygen Transporter For Islet Cell Transplantation • Utilized finite element method (FEM) to identify limited oxygen supply as a clinical hindrance in islet cell transplantation. • Microfabricated a biocompatible parylene-based microcapillary mesh structure to transport oxygen to high metabolic transplanted islet cells in vitro and in vivo, sustaining their viability in hypoxic microenvironments. Wireless-Powered, Miniaturized, and Leadless Pacemaker • Microfabricated a fully implantable and intravenous leadless pacemaker with a size of only 2 mm in diameter, using biocompatible parylene-based circuit board technology and flexible hybrid electronics (FHE) approach. • Designed and engineered a low-frequency inductive wireless power transfer (WPT) system for small receiving coils. Long-Term Reliable Non-Hermetic Pacaking For Implantable Pressure Sensor • Developed and characterized a micron-sized parylene-in-oil water protection coating layer as a non-hermetic packaging for long-term reliable and implantable pressure sensor for hydrocephalus shunt monitoring. • Implemented a battery-free architectute for wireless power and communications based on MSP430 chip and I2C protocol. Magnetic Field-Based Wearable Sensors For Lesion Localizing and Surgical Tools Tracking • Engineered non-invasive eddy current-based wearable sensor for rapid and accurate stroke triage. • Established magnetic field-based tracking and localizing systems for minimally invasive surgery. Show less
-
-
-
National Taiwan University
-
Taiwan
-
Higher Education
-
700 & Above Employee
-
UG Researcher
-
Sep 2012 - Jun 2017
Radio Frequency Integrated Circuit Design For Communication Systems • Designed, taped out, and measured “A 38 GHz Power Amplifier for 5G Communication System using 0.15-µm GaAs pHEMT Technology” and “A sub-milli-watt K-band Low Noise Amplifier using 90-nm CMOS Technology.” Biomolecular Mechanism For Medicinal Fungus Extract Against Human Breast Cancer • Investigated and compared the anti-tumor effects of Antrodia cinnamomea and chemotherapy drug against T47D human breast cancer from in vitro proof-of-concept to in vivo nude mice model. Show less
-
-
Education
-
Caltech
Doctor of Philosophy - PhD -
Caltech
Master of Science - MS -
National Taiwan University
Bachelor of Science