Jian Qiu, 557826 226Th St, Flushing, NY 11364

7825199, Nov 2, 2010

Mar 23, 2000

09/534827

Krzysztof Matyjaszewski - Pittsburgh PA, US
Scott G. Gaynor - Pittsburgh PA, US
Hyun-jong Paik - Pittsburgh PA, US
Tomislav Pintauer - Pittsburgh PA, US
Jeff Pyun - Pittsburgh PA, US
Jian Qiu - Pittsburgh PA, US
Mircea Teodorescu - Bucharest, RO
Jianhui Xia - Pittsburgh PA, US
Xuan Zhang - Woburn MA, US
Peter J. Miller - Imperial PA, US

Carnegie Mellon University - Pittsburgh PA

C08F 4/00
C08F 4/44
C08F 4/06

526 90, 526111, 526135, 526145, 526146, 526147

Further improvements have been made in processes for controlled polymerization of free radically (co)polymerizable monomers mediated by a transition metal complex participating in a redox reaction which involves transfer of a radically transferable atom or group to and from an initiator or dormant polymer and the growing active polymer chain ends. Two improvements involve the choice of counterion in the transition metal complex. In one improvement the transition metal is held in close conjunction with a solid support through interaction with a counterion directly attached to the support. This cognition also allows for improvements in catalyst utilization including catalyst recovery and recycle. In another improvement, particularly suitable for controlled polymerization of certain monomers with an expanded range of transition metals, the function of counterion and ligand in the development of the transition metal based catalyst is superseded by use of salt containing a soluble organic counterion. These and other process improvements have been employed to prepare an extended range of novel polymeric materials and novel processes for the preparation of functional polymers including a novel catalytic Atom Transfer Coupling Reaction.

2004017, Sep 2, 2004

Feb 27, 2004

10/788995

Krzysztof Matyjaszewski - Pittsburgh PA, US
Scott Gaynor - Pittsburgh PA, US
Hyun-jong Paik - Pittsburgh PA, US
Tomislav Pintauer - Pittsburgh PA, US
Jeff Pyun - Pittsburgh PA, US
Jian Qiu - Pittsburgh PA, US
Mircea Teodorescu - Bucharest, RO
Jianhui Xia - Pittsburgh PA, US
Xuan Zhang - Woburn MA, US
Peter Miller - Imperial PA, US

Carnegie Mellon University (a non-profit Pennsylvania organization) - Pittsburgh PA

C08F004/80

526/303100, 526/300000, 526/319000, 525/244000, 526/330000, 526/171000, 526/346000

Further improvements have been made in processes for controlled polymerization of free radically (co)polymerizable monomers mediated by a transition metal complex participating in a redox reaction which involves transfer of a radically transferable atom or group to and from an initiator or dormant polymer and the growing active polymer chain ends. Two improvements involve the choice of counterion in the transition metal complex. In one improvement the transition metal is held in close conjunction with a solid support through interaction with a counterion directly attached to the support. This cognition also allows for improvements in catalyst utilization including catalyst recovery and recycle. In another improvement, particularly suitable for controlled polymerization of certain monomers with an expanded range of transition metals, the function of counterion and ligand in the development of the transition metal based catalyst is superseded by use of salt containing a soluble organic counterion. These and other process improvements have been employed to prepare an extended range of novel polymeric materials and novel processes for the preparation of functional polymers including a novel catalytic Atom Transfer Coupling Reaction.

6121371, Sep 19, 2000

Jul 31, 1998

9/126768

Krzysztof Matyjaszewski - Pittsburgh PA
Scott G. Gaynor - Pittsburgh PA
Jian Qiu - Pittsburgh PA
Mircea Teodorescu - Pittsburgh PA

Carnegie Mellon University - Pittsburgh PA

C08F 216
C08F 406
C08F29300

524804

A process is provided for the preparation of (co)polymer emulsions or suspensions from a full range of free radically (co)polymerizable monomers, wherein the (co)polymers exhibit the characteristics of "living" polymerization, including one or more of predictable molecular weights, narrow or controllable molecular weight distributions and a variety of polymer architectures, including the roles of surfactants, catalyst and ligands, several initiation methods, and methods for catalyst removal from the emulsions or suspensions made, and the (co)polymer emulsions and suspensions made thereby.

2017019, Jul 13, 2017

Mar 29, 2017

15/472529

- Port Washington NY, US
Jian Qiu - Oakland Gardens NY, US
Hassan Ait-Haddou - Melville NY, US

Pall Corporation - Port Washington NY

B01D 71/32
B01D 67/00
C08J 7/04
B01D 69/12

Disclosed are polymers suitable for hydrophilically modifying the surface of porous fluoropolymer supports, for example, a copolymer of the formula:Also disclosed are a method of preparing the polymers, a method of hydrophilically modifying porous fluoropolymer supports, hydrophilic fluoropolymer porous membranes prepared from the polymers, and a method of filtering fluids through the porous membranes.

2017000, Jan 12, 2017

Jul 10, 2015

14/796150

- Port Washington NY, US
Jian M. Qiu - Oakland Gardens NY, US
Amarnauth Singh - Selden NY, US
Barbara Mish - Huntington NY, US

C12Q 1/68

Dendrimer conjugates for determining membrane retention level and/or pore structure, methods of determining membrane level/pore structure, and kits including dendrimer conjugates are disclosed.

2016028, Oct 6, 2016

Mar 31, 2015

14/675547

- Port Washington NY, US
Jian QIU - Oakland Gardens NY, US
Hassan AIT-HADDOU - Melville NY, US

PALL CORPORATION - Port Washington NY

B01D 69/12
B01D 71/80
B01D 67/00
B01D 71/44
B01D 69/10

Disclosed are copolymers which are useful in hydrophilically modifying porous fluoropolymer supports. An example of the copolymers is:Also disclosed are a method of preparing such copolymers, a method of modifying porous fluoropolymer surfaces, and hydrophilic fluoropolymer porous membranes prepared therefrom. Also disclosed is a method of filtering fluids by the use of the hydrophilic fluoropolymer porous membranes.

2016028, Oct 6, 2016

Mar 31, 2015

14/675528

- Port Washington NY, US
Jian QIU - Oakland Gardens NY, US
Hassan AIT-HADDOU - Melville NY, US

PALL CORPORATION - Port Washington NY

B01D 71/44
B01D 67/00
B01D 69/10

Disclosed are polymers suitable for hydrophilically modifying the surface of porous fluoropolymer supports, for example, a copolymer of the formula:Also disclosed are a method of preparing the polymers, a method of hydrophilically modifying porous fluoropolymer supports, hydrophilic fluoropolymer porous membranes prepared from the polymers, and a method of filtering fluids through the porous membranes.

2016028, Oct 6, 2016

Mar 31, 2015

14/675562

- Port Washington NY, US
Khaled Abdel-Hakim Helmy AAMER - Port Washington NY, US
Jian QIU - Oakland Gardens NY, US
Frank Okezie ONYEMAUWA - Pace FL, US
Marcin STASIAK - Port Washington NY, US

PALL CORPORATION - Port Washington NY

B01D 71/80
B01D 69/12
B01D 67/00
B01D 71/66
B01D 71/32
B01D 61/02
B01D 71/62

Disclosed are copolymers suitable for hydrophilically modifying the surface of fluoropolymer membranes. An example of the copolymers is:Also disclosed are a method of preparing the copolymers, a method of hydrophilically modifying porous fluoropolymer supports, hydrophilic porous fluoropolymer membranes prepared from the copolymers, and a method of filtering fluids by the use of the hydrophilic porous fluoropolymer membranes.