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Inventor profile of:

Thomas C. Schulz

City:

Athens, Georgia

Country:

United States

Published Applications:

Last publication date:

2024-07-04

Top Assignees for applications by Thomas C. Schulz

The entities that hold a legal rights for patent applications filed by inventor Schulz Thomas C.:

VIACYTE, INC. 20 San Diego, CA United States
BresaGen, Inc. 2 Athens, GA United States
Novocell, Inc. 1 San Diego, CA United States

Recent patent applications by Schulz Thomas C.

Thomas C. Schulz from Athens, US has applied for patents for these inventions. The list has both pending applications and granted patents:

#1 | 2024-07-04

US20240218324A1

Chemistry; metallurgy

METHODS AND COMPOSITIONS FOR FEEDER-FREE PLURIPOTENT STEM CELL MEDIA CONTAINING HUMAN SERUM

#2 | 2021-10-21

US20210324329A1

Chemistry; metallurgy

Scalable primate pluripotent stem cell aggregate suspension culture

#3 | 2021-02-18

US20210047616A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#4 | 2019-07-25

US20190225938A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#5 | 2019-03-28

US20190093076A1

Chemistry; metallurgy

Scalable primate pluripotent stem cell aggregate suspension culture

#6 | 2016-08-04

US20160222346A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#7 | 2016-05-26

US20160145569A1

Chemistry; metallurgy

Compositions and Methods Useful for Culturing Differentiable Cells

#8 | 2015-05-14

US20150132846A1

Chemistry; metallurgy

Scalable primate pluripotent stem cell aggregate suspension culture and differentiation thereof

#9 | 2014-07-03

US20140186948A1

Chemistry; metallurgy

Small molecules supporting pluripotent cell growth and methods thereof

#10 | 2014-06-05

US20140154802A1

Chemistry; metallurgy

Compositions and Methods Useful for Culturing Differentiable Cells

#11 | 2014-04-10

US20140099713A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#12 | 2013-11-21

US20130309708A1

Physics

Compositions and methods useful for culturing differentiable cells

#13 | 2013-05-09

US20130115695A1

Chemistry; metallurgy

Scalable primate pluripotent stem cell aggregate suspension culture and differentiation thereof

#14 | 2012-08-23

US20120214237A1

Chemistry; metallurgy

Compositions and methods useful for culturing differentiable cells

#15 | 2012-02-23

US20120045830A1

Chemistry; metallurgy

Stem cell aggregate suspension compositions and methods of differentiation thereof

#16 | 2012-01-26

US20120021513A1

Chemistry; metallurgy

Small molecules supporting pluripotent cell growth and methods thereof

#17 | 2010-12-09

US20100311164A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#18 | 2010-11-04

US20100279399A1

Chemistry; metallurgy

Human Cancer Stem Cell Culture Compositions Comprising ErbB2 Variants and Methods of Use

#19 | 2010-05-06

US20100112691A1

Chemistry; metallurgy

Stem cell aggregate suspension compositions and methods of differentiation thereof

#20 | 2009-04-23

US20090104696A1

Chemistry; metallurgy

Methods and compositions for feeder-free pluripotent stem cell media containing human serum

#21 | 2008-10-30

US20080268534A1

Chemistry; metallurgy

Compositions and methods useful for culturing differentiable cells

#22 | 2008-05-15

US20080113433A1

Chemistry; metallurgy

Methods for culturing pluripotent stem cells in suspension using ERBB3 ligands

#23 | 2008-04-10

US20080085557A1

Chemistry; metallurgy

Human cancer stem cell culture compositions comprising Erbb2 variants and methods of use thereof

#24 | 2006-08-17

US20060183221A1

Chemistry; metallurgy

Method for neural differentiation of embryonic stem cells using protease passaging techniques

InventorID:

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