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Min HuArcadia, CA

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Arcadia, CA   

Jersey City, NJ   

Okemos, MI   

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License Records

Min Hu

Licenses:
License #: 20873 - Active
Category: Architect
Issued Date: Aug 28, 2008
Expiration Date: Mar 31, 2018
Organization:
Firm Not Published

Min Hu resumes & CV records

Resumes

Min Hu Photo 37

Principal Scientist

Industry:
Food Production
Work:
Dupont Nutrition & Biosciences
Principal Scientist Dupont Nutrition & Health
Principal Scientist, Lipid Oxidation and Antioxidants, Fats and Oils, Food Emulsion and Beverage, Dry Foods
Skills:
Chemistry, Chemical Engineering, Food Emulsion, Food and Beverage, Lipid Oxidation, Low Moisture Food, Coatings, Food Processing, Pet Food, Food Colors, Antioxidant Technology, Analytical Chemistry, Bioactive Compounds, Cross Functional Team Leadership, Manufacturing, Polymers, Development of Antioxidants, Project Management, Product Development, Bulk Oils and Fats, Application of Antioxidants To Various Foods
Min Hu Photo 38

Min Hu

Industry:
Accounting
Min Hu Photo 39

Accounting Manager

Min Hu Photo 40

Min Hu

Min Hu Photo 41

Min Hu

Min Hu Photo 42

Min Hu

Min Hu Photo 43

Min Hu

Min Hu Photo 44

Min Hu

Location:
United States

Publications & IP owners

Us Patents

Colorimetric Chemical Sensor With Enhanced Color Sensitivity

US Patent:
2023000, Jan 5, 2023
Filed:
Jul 19, 2022
Appl. No.:
17/868604
Inventors:
- Brooklyn NY, US
Min Hu - Brooklyn NY, US
Assignee:
DrinkSavvy, Inc. - Brooklyn NY
International Classification:
G01N 21/78
G01N 31/22
G01N 33/14
B82Y 20/00
Abstract:
A colorimetric sensor for detecting an analyte of interest in a fluid sample includes a lamellar photonic material having alternating layers of a first polymer layer and a second polymer layer. Each first polymer layer can be a molecularly imprinted polymer defining a cavity shaped to receive an analyte of interest. The photonic material is configured such that, when an analyte contacts the photonic material and becomes disposed within a cavity of the molecularly imprinted polymer, a refractive property of the photonic material changes, causing a detectable color change in the sensor.

Colorimetric Sensors And Methods Of Manufacturing The Same

US Patent:
2020011, Apr 16, 2020
Filed:
Dec 12, 2019
Appl. No.:
16/711843
Inventors:
- Brooklyn NY, US
Min Hu - Brooklyn NY, US
International Classification:
B01L 3/00
G01N 21/78
G01N 21/65
G01N 21/41
G01N 33/14
Abstract:
A colorimetric sensor for detecting an analyte of interest that includes multiple surfaces and a molecularly imprinted polymer defining a cavity shaped to receive an analyte of interest. Each surface defines a void (e.g., a pore or a nanohole) and at least one surface defines a fluid inlet. The sensor is configured such that, when an analyte contacts the molecularly imprinted polymer and becomes disposed within the cavity, a wettability of at least one of the surfaces changes thereby to cause a detectable color change in the sensor. Optionally, the sensor may also include a metal layer at a bottom of each void or nanohole and outside a top of each void or nanohole for use as a plasmon resonance-type sensor.

Surface Plasmon Resonance Sensor Comprising Metal Coated Nanostructures And A Molecularly Imprinted Polymer Layer

US Patent:
2019031, Oct 17, 2019
Filed:
May 30, 2019
Appl. No.:
16/427039
Inventors:
- Brooklyn NY, US
Min Hu - Brooklyn NY, US
International Classification:
G01N 21/25
G01N 21/77
G01N 21/552
B01J 20/26
B01J 20/30
B01J 20/32
Abstract:
A colorimetric sensor for detecting an analyte of interest that includes a metal layer disposed upon a substrate, a plurality of nanostructures, and a corresponding plurality of metal deposits spaced apart from the metal layer. The metal layer defines a plurality of holes, each nanostructure includes a first portion disposed within a respective hole, and each metal deposit is disposed upon a second portion of a respective nanostructure. The sensor also includes a molecularly imprinted polymer layer that may cover the metal layer, the nanostructures, and/or the metal deposits. The molecularly imprinted polymer layer defines a cavity shaped to receive the analyte of interest, and the sensor is configured such that, when an analyte contacts the molecularly imprinted polymer layer and becomes disposed within the cavity, an optical property of at least a portion of the sensor changes thereby to cause a detectable color change in and/or from the sensor.

Colorimetric Chemical Sensor With Enhanced Color Sensitivity

US Patent:
2019026, Aug 29, 2019
Filed:
Apr 11, 2019
Appl. No.:
16/381436
Inventors:
- Brooklyn NY, US
Min Hu - Brooklyn NY, US
International Classification:
G01N 21/78
G01N 21/45
G01N 21/77
G01N 31/22
G01N 33/14
Abstract:
A colorimetric sensor for detecting an analyte of interest in a fluid sample includes a lamellar photonic material having alternating layers of a first polymer layer and a second polymer layer. Each first polymer layer can be a molecularly imprinted polymer defining a cavity shaped to receive an analyte of interest. The photonic material is configured such that, when an analyte contacts the photonic material and becomes disposed within a cavity of the molecularly imprinted polymer, a refractive property of the photonic material changes, causing a detectable color change in the sensor.

Possible Relatives

David Hu  De M Hu  Dean T Hu  Dan Hu  Daniel Y Hu  Dong Hu  Elaine W Hu  Min J Jun  Min J Jung  Min Y Kang 

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