HUI LI
Medical Practice at 15 St, Philadelphia, PA

8491818, Jul 23, 2013

Nov 21, 2007

11/943790

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US

Drexel University - Philadelphia PA

C09K 11/70, C09K 11/72, C09K 11/77, C09K 11/54, C09K 11/56

2523016S, 2523016 R

An economic, direct synthetic method for producing water soluble ZnS QDs that are ready for bioconjugation is provided. The method can produce aqueous ZnS QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. The aqueous ZnS QDs are stable in biological fluids over a long period of time. In addition, non-toxic ZnS QDs have been produced with good photoluminescence properties.

7335345, Feb 26, 2008

May 24, 2005

11/136653

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US
Melissa Colleen Schillo - Broadview Heights OH, US

Drexel University - Philadelphia PA

H01M 9/08

4235611, 4235661, 977774, 2523014 R, 2523016 R, 2523016 S, 2523014 S, 2523014 F

An economic, direct synthetic method for producing water soluble QDs that are ready for bioconjugation is provided. The method can produce aqueous QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. This provides a significant improvement over the present complex and expensive commercial processes for the production of QDs. The aqueous QDs are stable in biological fluids over a long period of time. In addition, nontoxic ZnS QDs have been produced with good photoluminescence properties by refluxing the ZnS QD suspensions over a period of time.

8080229, Dec 20, 2011

Jun 7, 2011

13/155141

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US
Melissa Colleen Schillo - Broadview Heights OH, US

Drexel University - Philadelphia PA

C01B 17/20, C01G 21/21, C01G 11/02, C01G 9/08, C01G 45/00

4235611, 4235661, 977774, 2523014 R, 2523016 R, 2523016 S, 2523014 S, 2523014 F

An economic, direct synthetic method for producing water soluble QDs that are ready for bioconjugation is provided. The method can produce aqueous QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. This provides a significant improvement over the present complex and expensive commercial processes for the production of QDs. The aqueous QDs are stable in biological fluids over a long period of time. In addition, nontoxic ZnS QDs have been produced with good photoluminescence properties by refluxing the ZnS QD suspensions over a period of time.

7597870, Oct 6, 2009

Jan 2, 2008

11/968228

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US
Melissa Colleen Schillo - Broadview Heights OH, US

Drexel University - Philadelphia PA

C01B 17/20, C01G 21/21, C01G 11/02, C01G 9/08, C01G 45/00

4235611, 4235661, 977774, 2523014 R, 2523016 R, 2523016 S, 2523014 S, 2523014 F

An economic, direct synthetic method for producing water soluble QDs that are ready for bioconjugation is provided. The method can produce aqueous QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. This provides a significant improvement over the present complex and expensive commercial processes for the production of QDs. The aqueous QDs are stable in biological fluids over a long period of time. In addition, nontoxic ZnS QDs have been produced with good photoluminescence properties by refluxing the ZnS QD suspensions over a period of time.

7976819, Jul 12, 2011

Sep 21, 2010

12/887224

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US
Melissa Colleen Schillo - Broadview Heights OH, US

Drexel University - Philadelphia PA

C01B 17/20, C01G 21/21, C01G 11/02, C01G 9/08, C01G 45/00

4235611, 4235661, 977774, 2523016 R, 2523016 S, 2523014 S, 2523014 F

An economic, direct synthetic method for producing water soluble QDs that are ready for bioconjugation is provided. The method can produce aqueous QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. This provides a significant improvement over the present complex and expensive commercial processes for the production of QDs. The aqueous QDs are stable in biological fluids over a long period of time. In addition, nontoxic ZnS QDs have been produced with good photoluminescence properties by refluxing the ZnS QD suspensions over a period of time.

7824653, Nov 2, 2010

Sep 2, 2009

12/552970

Wei-Heng Shih - Bryn Mawr PA, US
Wan Y. Shih - Bryn Mawr PA, US
Hui Li - Philadelphia PA, US
Melissa Colleen Schillo - Broadview Heights OH, US

Drexel University - Philadelphia PA

C01B 17/20, C01G 21/21, C01G 11/02, C01G 9/08, C01G 45/00

4235611, 4235661, 977774, 2523014 R, 2523016 R, 2523016 S, 2523014 S, 2523014 F

An economic, direct synthetic method for producing water soluble QDs that are ready for bioconjugation is provided. The method can produce aqueous QDs with emission wavelengths varying from 400 nm to 700 nm. Highly luminescent metal sulfide (MS) QDs are produced via an aqueous synthesis route. MS QDs are capped with thiol-containing charged molecules in a single step. The resultant MS QDs exhibit the distinctive excitonic photoluminescence desired of QDs and can be fabricated to avoid undesirable broadband emissions at higher wavelengths. This provides a significant improvement over the present complex and expensive commercial processes for the production of QDs. The aqueous QDs are stable in biological fluids over a long period of time. In addition, nontoxic ZnS QDs have been produced with good photoluminescence properties by refluxing the ZnS QD suspensions over a period of time.