Search Results - kenneth+halvorsen

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RNA Purification with DNA Nanoswitches
Novel, user-centric technology for detecting and analyzing RNA that accelerates the pace of discovery in RNA research. Background: RNA purification is an important part of biomedical research, and very few tools exist for pulling specific RNAs out of a complex solution. Further, understanding of RNA and its complex roles in biology is constantly evolving....
Published: 9/27/2024   |   Inventor(s): Kenneth Halvorsen, Lifeng Zhou
Keywords(s):  
Category(s): Campus > University at Albany, Technology Classifications > Diagnostics, Technology Classifications > Research Tools and Reagents
Portable Assay for COVID-19 Diagnostic
A low-cost, rapid, and more accurate gel electrophoresis-based assay using DNA nanoswitches for detecting COVID-19 and other viruses. Background: Viral diagnostics are of prime importance for testing infection rates and for timely treatment, especially in the case of a pandemic such as the current COVID-19 outbreak caused by the SARS-CoV-2 corona...
Published: 9/27/2024   |   Inventor(s): Kenneth Halvorsen, Lifeng Zhou
Keywords(s): DNA, RNA, Technologies
Category(s): Campus > University at Albany, Technology Classifications > Diagnostics
Ribonuclease-responsive DNA Nanoswitches
A DNA nanoswitch that provides a simple mix-and-read methodology to detect RNases (ribonucleases) in a biological sample. Background: RNases are involved in many biological processes including neurotoxicity, genome replication and maintenance, immune-suppression, and antitumor activity. RNase inhibitors are also potential drug candidates and biomarkers...
Published: 9/27/2024   |   Inventor(s): Kenneth Halvorsen, Arun Richard Chandrasekaran
Keywords(s): DNA, RNA, RNA-switch
Category(s): Campus > University at Albany, Technology Classifications, Technology Classifications > Biomedical Science and Engineering, Technology Classifications > Research Tools and Reagents, Technology Classifications > Diagnostics
Efficient & Broadband Even-Order Harmonic Multiplication in Standard CMOS
A novel technique to realize highly-efficient passive multipliers in a standard CMOS process is demonstrated to efficiently generate even-order harmonics while simultaneously suppressing odd-order harmonics over broad-bandwidths. This is achieved by improving the cutoff frequency (fT) well beyond a THz. The higher fT combined with proposed nonlinearity...
Published: 4/26/2019   |   Inventor(s): Kenneth O, Zeshan Ahmad
Keywords(s): Devices, Electronics, Engineering & Physical Sciences, Imaging, Optics & Photonics, Semiconductor, MEMS & Nanotechnology, Signal Processing, Wireless
Category(s): Communications