Camelia Prodan

Title: Camelia Prodan: Innovator in Nanotechnology and Dielectric Spectroscopy

Introduction

Camelia Prodan is a distinguished inventor based in Montclair, NJ (US), known for her contributions to the fields of nanotechnology and dielectric spectroscopy. With a total of 2 patents, she has made significant strides in developing innovative devices and methods for biological applications.

Latest Patents

Prodan's latest patents include "Nanoprobe and methods of use" and "Dielectric spectroscopy assays for screening of ion channel ligands." The first patent describes a device designed to determine the presence of a single cell and assess its state. This device features a first nanotube on a first electrode and a second nanotube on a second electrode, spaced apart at a length smaller than the cell size to be detected. The method for determining the presence of a single biological cell involves sensing impedance between the two nanotubes. Additionally, the manufacturing method includes providing a nanotube and an electrode coated with an insulating material, utilizing electrophoresis deposition to ensure electrical communication with the electrode. The second patent outlines a method for measuring membrane potential using dielectric spectroscopy, introducing a new theoretical model that allows for the determination of membrane potential from low-frequency impedance measurements. This method is both rapid and cost-effective, providing a non-invasive approach to biological analysis.

Career Highlights

Throughout her career, Prodan has worked with notable organizations, including the New Jersey Institute of Technology and Purdue Pharma L.P. Her work has significantly impacted the development of technologies that enhance our understanding of biological systems.

Collaborations

Prodan has collaborated with esteemed colleagues such as Victor I. Ilyin and Donald Kyle, contributing to her innovative research and development efforts.

Conclusion

Camelia Prodan's work exemplifies the intersection of technology and biology, showcasing her innovative spirit and dedication to advancing scientific knowledge. Her patents reflect her commitment to developing tools that can revolutionize the way we study and understand biological processes.