Highly ordered titania nanotube arrays for phosphoproteomics

Number of patents in Portfolio can not be more than 2000

United States of America Patent

PATENT NO 10478800
APP PUB NO 20180015439A1
SERIAL NO

15536758

Stats

ATTORNEY / AGENT: (SPONSORED)

Importance

Loading Importance Indicators... loading....

Abstract

See full text

Titania nanotube arrays are useful for phosphopeptide enrichment and separation. These highly ordered titania nanotube arrays are a low cost and highly effective alternative to the use of liquid chromatography mass spectrometry (LC-MS) methods using meoporous titania beads or particles. The highly ordered TiO2 nanotubes are grown on surfaces coated with Ti metal, or preferably on Ti wires, by methods that preferably include anodic oxidation.

Loading the Abstract Image... loading....

First Claim

See full text

Family

Loading Family data... loading....

Patent Owner(s)

Patent OwnerAddress
UNIVERSITY OF CINCINNATI2624 CLIFTON AVENUE CINCINNATI OH 45221-0623

International Classification(s)

Inventor(s)

Inventor Name Address # of filed Patents Total Citations
Ahiabu, Ivy Houston, US 1 0
Chu, Wei-Kan Pearland, US 34 720
Greis, Kenneth D Fort Thomas, US 16 336
Paulose, Maggie Houston, US 4 92
Varghese, Oomman K Houston, US 5 101
Wijeratne, Aruna West Lafayette, US 1 0
Wijesundara, Dharshana Houston, US 1 0

Cited Art Landscape

Load Citation

Patent Citation Ranking

Forward Cite Landscape

Load Citation

Maintenance Fees

Fee Large entity fee small entity fee micro entity fee due date
7.5 Year Payment $3600.00 $1800.00 $900.00 May 19, 2027
11.5 Year Payment $7400.00 $3700.00 $1850.00 May 19, 2031
Fee Large entity fee small entity fee micro entity fee
Surcharge - 7.5 year - Late payment within 6 months $160.00 $80.00 $40.00
Surcharge - 11.5 year - Late payment within 6 months $160.00 $80.00 $40.00
Surcharge after expiration - Late payment is unavoidable $700.00 $350.00 $175.00
Surcharge after expiration - Late payment is unintentional $1,640.00 $820.00 $410.00