Ted A Laurence, Age 521417 Anza Way, Livermore, CA 94550

7456954, Nov 25, 2008

Jun 17, 2004

10/561448

Shimon Weiss - Los Angeles CA, US
Achillefs Kapanidis - Oakland CA, US
Ted A. Laurence - Livermore CA, US
Nam K. Lee - Seoul, KR

The Regents of the University of California - Oakland CA

G01J 3/30
G01N 21/64

356318, 356417, 2504581, 436172

Fluorescence, spectroscopy is used to analyze small numbers of molecules that are present in a relatively small detection volume or zone. Information regarding physical and chemical properties of these molecules is determined by rapidly modulating the wavelength, intensity and/or polarization of laser energy to excite fluorophores that are attached either to the molecule of interest or a molecule that interacts with the molecule of interest. The emission profile of the fluorophores is used to determine useful information about the labeled and/or non-labeled molecules including molecular interactions between the molecules.

7599059, Oct 6, 2009

Jul 25, 2003

10/521632

Ted A. Laurence - Livermore CA, US
Shimon Weiss - Los Angels CA, US

The Regents of the University of California - Oakland CA

G01J 3/30

356317

A method for analyzing/monitoring the properties of species that are labeled with fluorophores. A detector is used to detect photons emitted from species that are labeled with one or more fluorophores and located in a confocal detection volume. The arrival time of each of the photons is determined. The interval of time between various photon pairs is then determined to provide photon pair intervals. The number of photons that have arrival times within the photon pair intervals is also determined. The photon pair intervals are then used in combination with the corresponding counts of intervening photons to analyze properties and interactions of the molecules including brightness, concentration, coincidence and transit time. The method can be used for analyzing single photon streams and multiple photon streams.

8313662, Nov 20, 2012

Oct 1, 2009

12/572220

Philip Edward Miller - Livermore CA, US
Tayyab Ishaq Suratwala - Pleasanton CA, US
Jeffrey Devin Bude - Danville CA, US
Nan Shen - Fremont CA, US
William Augustus Steele - Tracy CA, US
Ted Alfred Laurence - Livermore CA, US
Michael Dennis Feit - Livermore CA, US
Lana Louie Wong - Pleasanton CA, US

Lawrence Livermore National Security, LLC - Livermore CA

B29D 11/00

216 24, 216 26, 216 97, 264 26, 264344

A method for preventing damage caused by high intensity light sources to optical components includes annealing the optical component for a predetermined period. Another method includes etching the optical component in an etchant including fluoride and bi-fluoride ions. The method also includes ultrasonically agitating the etching solution during the process followed by rinsing of the optical component in a rinse bath.

2006005, Mar 9, 2006

Sep 7, 2004

10/935783

Chad Talley - Brentwood CA, US
Thomas Huser - Livermore CA, US
Christopher Hollars - Brentwood CA, US
Stephen Lane - Oakland CA, US
Joe Satcher - Patterson CA, US
Bradley Hart - Brentwood CA, US
Ted Laurence - Livermore CA, US

G01J 3/44

356301000

Surface-Enhanced Raman Spectroscopy (SERS) is a vibrational spectroscopic technique that utilizes metal surfaces to provide enhanced signals of several orders of magnitude. When molecules of interest are attached to designed metal nanoparticles, a SERS signal is attainable with single molecule detection limits. This provides an ultrasensitive means of detecting the presence of molecules. By using selective chemistries, metal nanoparticles can be functionalized to provide a unique signal upon analyte binding. Moreover, by using measurement techniques, such as, ratiometric received SERS spectra, such metal nanoparticles can be used to monitor dynamic processes in addition to static binding events. Accordingly, such nanoparticles can be used as nanosensors for a wide range of chemicals in fluid, gaseous and solid form, environmental sensors for pH, ion concentration, temperature, etc., and biological sensors for proteins, DNA, RNA, etc.

2010010, Apr 29, 2010

Oct 8, 2009

12/576206

Hansang CHO - Albany CA, US
Stephen M. LANE - Oakland CA, US
Brian R. BAKER - Livemore CA, US
Sebastian WACHSMANN-HOGIU - Sacramento CA, US
Cynthia V. PAGBA - Sacramento CA, US
Jeffrey B.H. TOK - Stanford CA, US
Ted Alfred LAURENCE - Livermore CA, US
Luke P. LEE - Orinda CA, US

G01N 33/53
C12Q 1/68

435 6, 435 71

An aptamer based-sensor comprising: a target binding aptamer attaching a Raman probe and a metal coated surface; and related methods and systems

2021000, Jan 7, 2021

Mar 26, 2018

16/954990

- Livermore CA, US
John Adams - Livermore CA, US
Paul Ehrmann - Hughson CA, US
Ted Laurence - Livermore CA, US
Marlon G. Menor - Ceres CA, US
Kathleen I. Schaffers - Livermore CA, US

G02B 27/00
B06B 1/02
C09K 13/00

In one inventive concept, a method for etching an optic includes obtaining a microemulsion, where the microemulsion includes a continuous oil phase, a surfactant system comprising at least one surfactant, and water, submerging at least a portion of the optic in the microemulsion, and agitating by ultrasonication the microemulsion for etching the optic submerged therein.