Personal Details

This page is maintained by .

Dr. HAN Mingyong

Senior Scientist III

Staff

Soft Materials (SOF) Department

63194729

my-han(a)imre.a-star.edu.sg

2 Fusionopolis Way. Innovis, #08-03, Singapore 138634

http://www.bioeng.nus.edu.sg/people/


Research Details


  • Advanced preparation and formulation of colloidal composition/structure-tunable nanoparticles for applications in dispersion, coating, imaging, sensing, detection, energy, consumer care, etc
  • Nanoscience, Nanotechnology and Nanobiotechnology
  • Functional coatings
  • Advanced thermoelectric nanomaterials
  • Smart nanostructures for imaging, sensing and detection (probing protein-protein interaction)
IBM, Indiana University
IMRE and National University of Singapore
  • PhD, Jilin University, 1993
2002 - Young Investigator Award by NUS' Office of Life Sciences and the Biomedical Research Council of A*Star

The Fellow of the Royal Society of Chemistry (FRSC)

 

Membrane-penetrating Carbon Quantum Dots for Imaging Nucleic Acid Structures in Live Organisms, Angewandte Chemie, https://doi.org/10.1002/anie.201903005, 2019.

Synthesis, Properties and Applications of Noble Metal Iridium Nanomaterials, Coordination Chemistry Reviews, 2019, 387(15), 450-462.

Cross-Platform Cancer Molecular Phenotyping Using Telomerase-specific SNAs, ACS Nano. 12(4):3629-3637, doi: 10.1021/acsnano.8b00743, 2018.

Electrostatic-Driven Exfoliation and Hybridization of Two Dimensional Nanomaterials, Advanced Materials, 29(32), 1700326, doi: 10.1002/adma.201700326, 2017.

Recent Progress in Energy-driven Water Splitting, Advanced Science (invited), 4(5), 1600337, 2017.

Controlled Modulation of Surface Coating and Surface Charging on Quantum Dots with Negatively Charged Gelatin for Substantial Enhancement and Reversible Switching in Photoluminescence, Advanced Functional Materials, 26 (48), 8991–8998, 2016.

Nano Fishnet Structure Making Silk Fibers Tougher, Advanced Functional Materials, 26:30, 5534–5541, 2016.

Elevating Biomedical Performance of ZnO/SiO2@Amorphous Calcium Phosphate - Bioinspiration Making Possible from the “Impossible”, Advanced Functional Materials, 26:38, 6921–6929, 2016.

Effective Targeted Photothermal Ablation of Multidrug Resistant Bacteria and Their Biofilms with NIR-absorbing Gold Nanocrosses, Advanced Healthcare Materials, 5:16, 2122-30, 2016.

Real-Time Discrimination and Versatile Profiling of Spontaneous ROS in Living Organisms with a Single Fluorescent Probe, Journal of the American Chemical Society, 138: 11, 3769–3778, 2016.

Multinary I-III-VI2 and I-II-IV-VI4 Semiconductor Nanostructures for Photocatalytic Applications, Account of Chemical Research 49, 511–519, 2016.

Silk Fibroin for Flexible Electronic Devices, Advanced Materials, 28:22, 4250–4265, 2016.

A Single White-light Upconversion Nanostructure towards Laser Power-modulated Multicolor Display, Angewandte Chemie International Edition, 54, 11531–11535, 2015.

Protein Induces Layer-by-Layer Exfoliation of Transition Metal Dichalcogenides, Journal of the American Chemical Society, 137 (19), 6152–6155, 2015.

Anisotropically Branched Metal Nanostructures, Chemical Society Review, 44, 6001 - 6017, 2015.

Structures, Mechanical Properties and Applications of Silk Fibroin Materials, Progress in Polymer Science, 46, 86-110, 2015.

π-Conjugated Carbon Radicals at Graphene Oxide to Initiate the Ultrastrong Chemiluminensence, Angewandte Chemie International Edition, 53(38), 10109–10113, 2014.

Destabilization of Gold Clusters for Controlled Nanosynthesis: From Clusters to Polyhedra, Advanced Materials 26(21), 3427–3432, 2014.

Self-assembly of Colloidal One-dimensional Nanocrystals, Chemical Society Reviews, 43 (7), 2301 – 2323, 2014.

Chemical Route to Top-down Nanofabrication, Chemical Society Reviews, 42 (14), 6006 – 6018, 2013.

Engineering Polymeric Microparticles as Theranostic Carriers for Selective Delivery and Cancer Therapy, Advanced Healthcare Materials, 2(12), 1571–1575, 2013.

Investigating the Multiple Roles of Polyvinylpyrrolidone for a General Methodology of Oxide Encapsulation, Journal of the American Chemical Society, 135 (24), 9099–9110, 2013.

Janus Au-TiO2 Photocatalysts with Strong Localization of Plasmonic Near-Fields for Efficient Visible-Light Hydrogen Generation, Advanced Materials, 24(17), 2310-2314, 2012.

Advanced Materials, 24(11), 1388–1397, 2012. (Front Inside Cover)

Temperature and Chemical Bonding-Directed Self-Assembly of Cobalt Phosphide Nanowires in Reaction Solutions into Vertical and Horizontal Alignments, Advanced Materials, 24(32), 4369-4375, 2012.

Plasmonic Gold Nanocrosses with Multidirectional Excitation and Strong Photothermal Effect, Journal of the American Chemical Society, 133(22), 8506–8509, 2011.

Anisotropic Growth of Titania onto Various Gold Nanostructures: Synthesis, Theoretical Understanding, Optimization for Catalysis, Angewandte Chemie International Edition, 50(43), 10140-10143, 2011.

The Use of Molecular Fluorescent Markers to Monitor Absorption and Distribution of Xenobiotics in a Silkworm Model, Biomaterials, 32(36), 9576-9583, 2011.

Plasmonic Gold Nanocrosses with Multi-directional Excitation and Strong Photothermal Effect, Journal of the American Chemical Society, 133, 8506–8509, 2011.

Facile Synthesis of Functionalized Amphiphilic Polymers as Versatile Functional Coating Platform for Quantum Dots, Nature Protocols, 6, 1546, 2011.

Intrinsically Colored and Luminescent Silk, Advanced Materials, 23(12), 1463-1466, 2011.

Acousto-Plasmonic and Surface-Enhanced Raman Scattering Properties of Coupled Gold Nanospheres/Nanodisk Trimers, Nano Letters, 11(2), 431-437, 2011.

One-Pot Synthesis of Cu1.94S-CdS and Cu1.94S-ZnxCd1-xS Nanodisk Heterostructures. Journal of the American Chemical Society, 133(7), 2052-2055, 2011.

Top-Down Fabrication of Calcite Nanoshoot Arrays by Crystal Dissolution, Advanced Materials, 22(29), 3181–3184, 2010.

Composition-Tunable Alloyed Semiconductor Nanocrystals, Accounts of Chemical Research, 43(5), 621-630, 2010.

Nitric Oxide Switches on the Photoluminescence of Molecularly Engineered Quantum Dots, Journal of the American Chemical Society, 131(33), 11692-11695, 2009.

Designer Polymer-Quantum Dot Architectures, Progress in Polymer Science, 34 (5), 393-430, 2009.

Reversible Phase Transfer of (CdSe/ZnS) Quantum Dots between Organic and Aqueous Solutions, ACS Nano, 3(3), 661-667, 2009.

Perpendicular Branching in Crystal Growth of 3D Architecture-Tuned Cadmium Oxide Arrays: From Oriented Tripods to Faceted Crystals, Advanced Materials, 20(12), 2276-2279, 2008.

Controlled Release and Absorption Resonance of Fluorescent Silica-coated Platinum Nanoparticles, Advanced Functional Materials, 17 (16), 3147-3152, 2007.

Top-down Solid-Phase Fabrication of Nanoporous Cadmium Oxide Architectures, Journal of the American Chemical Society, 129(8), 2333 -2337, 2007.

Nanosized Gold-Loaded Gelatin/Silica Nanocapsules, Advanced Materials, 17(15), 1862-1866, 2005.

Aggregation-Driven Growth of Size-Tunable Organic Nanoparticles Using Electronically-Altered Conjugated Polymers, Journal of the American Chemical Society, 127(29), 10350-10355, 2005.

Aminolysis Route to Monodisperse Titania Nanorods with Tunable Aspect Ratio, Angewandte Chemie International Edition, 44(22), 3466-3470, 2005.

Synthesis, Functionalization and Bioconjugation of Monodisperse Silica-Coated Gold Nanoparticles as Robust Nanoprobes, Advanced Functional Materials, 15(6), 961-967, 2005.

A General Low-Temperature Route for Large-Scale Fabrication of Highly Oriented ZnO Nanorod/Nanotube Arrays, Journal of the American Chemical Society, 127(8), 2378-2379, 2005 (Featured at Materials Today). (citations 570)

Three-dimensionally Oriented Aggregation of a Few Hundred Nanoparticles into Monocrystalline Architectures, Advanced Materials, 17(1), 42-47, 2005 (a breaking paper in Thomson with 570 citations).

Alloyed ZnCdS Nanocrystals with Highly Narrow Luminescence Spectral Width, Journal of the American Chemical Society, 125(44), 13559-13563, 2003. (660 citations)

Composition-tunable ZnCdSe Nanocrystals with High Luminescence and Stability, Journal of the American Chemical Society, 125(28), 8589-8594, 2003. (550 citations)

Luminescent Quantum Dots for Multiplexed Biological Detection and Imaging, Current Opinion in Biotechnology, 13(1), 40-46, 2002 (featured on the cover of this issue of Current Opinion in Biotechnology with ~2500 citations).

Quantum Dot-tagged Microbeads for Multiplexed Optical Coding of Biomolecules, Nature Biotechnology, 19(7), 631-635, 2001 (the cover of Nature Biotechnology with over ~3150 citations).

Singapore Patent Application No. 10201705349U

Intrinsically Toughest Silkworm Silk

Proposed PCT Application PCT/SG2018/050316

Intrinsically Toughest Silkworm Silk

SG Patent Application No. 10201610640X

Colorants-incorporated silk for value-added cosmetics

Proposed PCT Application based on SG Application 10201610640X

Colorants-incorporated silk for value-added cosmetics

SG Patent Application No. 10201603387S

Novel cementitious composite material using high thermal-conductive nanowires-doped microencapsulated PCM in concrete with multi-functional (heat absorptive and heat insulative) thermal properties for solar-heat reduction

SG Patent Application No. 10201703470W

Composite Particles Comprising Phase Change Materials

Singapore Patent Application No. 10201510662P

Photocatalytic Self-Cleaning and UV-IR-Filtering Nanocoatings for Glass Façade Panels and Window Systems

Patent Cooperation Treaty Application No. PCT/SG2016/050614
Photocatalytic Self-Cleaning And UV-IR-Filtering Nanocoatings For Glass Façade Panels And Window Systems

Patent Cooperation Treaty Patent Application No. PCT/SG2016/050614

A Film Coating

SG Patent Application No. 11201805448Y

Invention: A Film Coating (Photocatalytic Self-Cleaning and UV-IR-Filtering Nanocoatings for Glass Façade Panels and Window Systems)

Singapore Patent Application No. 10201505483T

Dicobalt Phosphide Nanostructures as Water Splitting Electrocatalyst

SG Patent Application No. 10201605758U

A Method for Preparing Transition Metal Phosphide

US Patent Application No. 15/209,618 - US Patent No. US 9,802,821 B2

A Method for Preparing Transition Metal Phosphide (Dicobalt Phosphide Nanostructures as Water Splitting Electrocatalyst)

Singapore Patent Application No. 10201500865T

Methods For Ultrafast Electroless Copper Plating With Patterns And Electroless Copper Plating Solutions For Making The Same

Patent Cooperation Treaty Application No. PCT/SG2016/050061

A Process For Plating A Metal On A Textile Fiber

Singapore Patent Application No. 10201402141X; ETPL ref: IMR/P/08567/00SG

Co-microencapsulation of phase change and thermal conductive materials

Singapore Patent Application No. 10201402950V

Solar-Driven Electrolytic Water Splitting using Amorphous Ruthenium Nanoparticles as Electrocatalyst

PCT Patent Application No. PCT/SG2015/050144 ; ETPL: IMR/P/08503/01/PCT

Electrocatalyst for hydrogen production

Singapore Patent Application No: 11201610165S

Electrocatalyst for hydrogen production

Singapore Patent Application No. 10201404279P

A Simple, Effective and Low Cost Aqueous Approach for Silica-Coating on Metal and Metal Oxide Nanoparticles

PCT Patent Application PCT\SG2015\050222

A Simple, Effective and Low Cost Aqueous Approach for Silica-Coating on Metal and Metal Oxide Nanoparticles

United States of America Patent Application No. 15/327,577
Silica Coating on Nanoparticles

Singapore Patent Application No. 201304943-2 - Patent No. 11201510700V

High Yield Green Synthesis of Copper Nanostructures Using Reusable Reaction Medium and their Thermal Conductivity Enhancement of Phase Change Material

PCT Patent Application No. PCT/SG2014/000308

High Yield Green Synthesis of Copper Nanostructures Using Reusable Reaction Medium and their Thermal Conductivity Enhancement of Phase Change Material

PCT Application No. PCT/SG2014/000308

Metal-Containing Particles, Processes For Their Preparation, And Uses Thereof

Singapore Patent Application 11201509409Y - Singapore Patent No. 11201509409Y

Method of laser triggered reversible gelation of an aqueous polymer solution

PCT Patent Application PCT/SG2014/000211

Method of laser triggered reversible gelation of an aqueous polymer solution

Singapore Patent Application No. 201303606-6

Multifunctional Rotatable Outdoor Climate Test Chamber with Interchangeable Façade and Shading Subjects

Singapore Patent Application No. 10201402241Y - Singapore Patent No. 10201402241Y

Mobile Test Chamber for Testing Environment Performance of an Interchangeable Façade System and Test Chamber System

Singapore Patent Application No. 201205655-2

A Method for Preparing A Surface Enhanced Raman Spectroscopy Particle

US Patent Application No. 13/562,104

A Universal Silica Coating Method for Large-scale and Environmentally Friendly Production of Highly Sensitive SERS Nanotags in Aqueous Solutions

Singapore Patent Application 10201504355V

A Universal Silica Coating Method for Large-scale and Environmentally Friendly Production of Highly Sensitive SERS Nanotags in Aqueous Solutions

US Patent Application No. 13/420,523

Detection method and sensor based on interparticle distance

China Patent Application No. 201210067009.5

Detection Method and Sensor Based on Interparticle Distance

PCT Patent Application No. PCT/SG2010/000059

Intrinsically Colored, Luminescent Silk Fibroin And The Method Of Producing Them

US Patent Application No. 13/202,089

Intrinsically Colored, Luminescent Silk Fibroin And The Method Of Producing Them

Singapore Patent Application SG 173713 A1

Intrinsically colored, luminescent silk fibroin and the method of producing them

Singapore Patent Application No. 201102552 - Singapore Patent No. 1703825

Amphiphilic Polymers and Nanocrystals Coated Therewith

PCT patent application no. PCT/SG2009/000374

Functional amphiphilic polymers-grafted nanoparticles for click chemistry-based sensing

US Provisional Patent Application No. 61/104,932

Functional amphiphilic polymers-grafted nanoparticles for click chemistry-based sensing

US Patent Application No. 13/124,113 - US Patent No. 8716420

Amphiphilic Polymers and Nanocrystals Coated Therewith

US Provisional Patent Application No.: 61/117,292

Particles as Bioimaging Tags and Targeting Carriers for Diagnostics, Delivery and Controlled Release

PCT Patent Application no. PCT/SG2009/000447

Anti-Cancer Microparticle

US Patent Application No. 13/130,957 based on PCT Patent Application No. PCT/SG2009/000447; ETPL: IMR/P/04973/03/US

Anti-cancer Microparticle

Singapore Patent Application No. 201103719-9 - Patent No. 171794

Anti-cancer Microparticle

US Provisional Patent Application No.: 61/121,287; ETPL Ref: IMR/P/04815/00/US

Invention: Plants Coloured With Nanocrystals

China Patent Application No. 200911000288.8; ETPL ref: IMR/P/04815/03/CN

Plants Coloured With Nanocrystals

Japanese Patent Application No. 2009-280695; ETPL: IMR/P/04815/01/JP

Entitled: Plants Coloured With Nanocrystals

Emissive Nanoparticles for Decoration of Flowers or Other Objects by Coating, Embedding and Uptaking Approaches

Singapore Patent Application No. 200908156-3 - Patent No. 162679

Plants Coloured With Nanocrystals

US Provisional Patent Application No. 60/973,619; ETPL: IMR/Z/04711

Versatile Platform for Coating, Solubilizing and Functionalizing of Nanoparticles

PCT Patent Application No. PCT/SG2008/000356

Amphiphilic Polymer and Process of Forming the Same

US Patent Application No. 12/678,734

Amphiphilic Polymer and Process of Forming the Same

Japanese Patent Application No. 2010-525783

Amphiphilic Polymer And Processes Of Forming The Same

Singapore Patent Application No. 201001544-4

Amphiphilic Polymer and Process of Forming the Same

US Provisional Patent Application No. 60/977,792
Solvothermal Synthesis of High-purity Binary and Ternary Nanocrystals

PCT Patent Application No. PCT/SG2008/000381

Methods of Forming a Nanocrystal

US Patent Application No. 12/681,771

Methods of Forming a Nanocrystal

Singapore Patent Application No. 201002266-3 - Patent No. 185284 and 160146

Methods of Forming a Nanocrystal

Singapore Patent Application No. 201207457-1 - Patent No. 185284

Methods of Forming a Nanocrystal

Japan Patent Application No. 2010-527916 - Patent No. 5490703

Methods Of Forming A Nanocrystal

US Provisional Patent Application No. 60/991,793; ETPL Ref: IMR/P/04683/00/US

Method for Significant Enhancement of the Photoluminescence and the Electroluminescence of Light-Emitting Polymer Films by Introducing Organic Molecule of Electron Donor into the Polymer Films

US Provisional Patent Application No. 60/954,179
Low Self-Absorptive Quantum Dots And Their Method Of Preparation

PCT Patent Application No. PCT/SG2008/000290

Process of Forming a Cadmium And Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

Singapore Patent Application No. 201000609-6 - Patent No. 158674

Process of Forming a Cadmium And Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

Korean Patent Application No. 2010-7005040

Process of Forming a Cadmium And Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

European Patent Application No. 08794195.1

Process of Forming a Cadmium And Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

US Patent Application No. 12/672,269

Process of Forming a Cadmium And Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

Japanese Patent Application No. 2010-519895

Process of Forming a Cadmium and Selenium Containing Nanocrystalline Composite and Nanocrystalline Composite Obtained Therefrom

PCT Application No. PCT/SG2007/000235

Method of Forming A Cadmium Containing Nanocrystal

Taiwanese Patent Application No. 097128734

Method of Forming A Cadmium Containing Nanocrystal

Singapore Patent Application No. 20100758-1 - Patent No. 159012

Method of Forming A Cadmium Containing Nanocrystal

US Patent Application No. 12/672,270

Method of Forming A Cadmium Containing Nanocrystal

Korean Patent Application No. 2010-7004891

Method of Forming A Cadmium Containing Nanocrystal

Japanese Patent Application No. 2010-519891

Method of Forming a Cadmium Containing Nanocrystals

US Provisional Patent Application No. 9869SG708
Hydrophobic Quantum Dots-Loaded Polymeric Particles As Bioimaging Tags and Target Carriers For Diagnostics, Delivery, And Controlled Release

PCT Patent Application No. PCT/SG2008/000097

An Encapsulated Quantum Dot

US Patent Application No. 12/593,877

An Encapsulated Quantum Dot

Chinese Patent Application No. 200880011176.X - Patent No. ZL 200880011176.X

Invention: An Encapsulated Quantum Dot

Korean Patent Application No. 10-2009-7021761

An Encapsulated Quantum Dot

Singapore Patent Application No. 200906245-6 - Patent No. 155582

An Encapsulated Quantum Dot

Japanese Patent Application No. 2010-502061

An Encapsulated Quantum Dot

US Provisional Patent Application No. 60/867,974
Single Pin-Holed Hollow Microspheres And Their Controlled Loading/Release Therefrom

US Patent Application No. 11/947,522

Micro-container

Singapore Patent Application No. 200718195-1 - Patent No. 143217

Micro-container

PCT application No. PCT/SG2005/000009

Water-Soluble Nanocrystals and Methods Of Preparing the Same

Japanese Patent Application No. 2007-551229 - Patent No. 4854678
Water-Soluble Nanocrystals and Methods of Preparing Them

Singapore Patent Application No. 200705185-7 - Patent NO. 134373
Water-Soluble Nanocrystals And Methods Of Preparing Them

Chinese Patent Application No. 200580048716.8
Water-Soluble Nanocrystals and Methods of Preparing Them

Chinese Patent No. ZL200580048716.8

Water-Soluble Nanocrystals and Methods of Preparing Them

US Application No. 11/813,906

Water-Soluble Nanocrystals And Methods Of Preparing Them

Europe Patent Application No. 05704829.0
Water-Soluble Nanocrystals And Methods Of Preparing Them

Korean Patent Application No. 10-2007-70187-12 - Patent No. 10-1088147
Water-Soluble Nanocrystals And Methods Of Preparing Them

PCT Patent Application No. PCT/SG2005/000136

Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing The Same

US Patent Application No. 11/913,673
Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

Japanese Patent Application No. 2008-509981 - Patent No. 4790797

Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing The Same

Korean Patent Application No. 2007-7028348
Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

European Patent Application No. 05734070.5
Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

European Patent Application No. 05734070.5

Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

Singapore Patent Application No. 200717396-6 - Patent No. 137150
Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

Japanese Patent Application No. 2008-509981

Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

Chinese Patent Application No. 200580050192.6

Novel Water-soluble Nanocrystals Comprising a Polymeric Coating Reagent, and Methods of Preparing the Same

PCT Patent Application No. PCT/SG2005/000138

Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods of Preparing the Same

Korean Patent Application No. 2007-7028347
Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods of Preparing The Same

US Patent Application No. 11/913,671
Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods o Preparing the Same

Japanese Patent Application No. 2008-509982

Novel Water-Soluble Nanocrystals Comprising A Low Molecular Weight Coating Reagent, And Methods Of Preparing The Same

European Patent Application No. 05734497.0
Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods Of Preparing the Same

Japanese Patent Application No. 2008-509982

Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods Of Preparing the Same

Chinese Patent Application No. 200580050209.8

Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods Of Preparing the Same

Singapore Patent Application No. 200717397-4 - Patent No. 137151

Novel Water-Soluble Nanocrystals Comprising a Low Molecular Weight Coating Reagent, and Methods Of Preparing the Same

US Provisional Application No. 60/562,228

A Biomimetic Approach to Low Cost Fabrication of Complex Nanostructures of Metal Oxides by Natural Oxidation at Low Temperature

US Application 11/104,581 - Patent No. US 7,485,488 B2
A Biomimetic Approach to Low Cost Fabrication of Complex Nanostructures of Metal Oxides by Natural Oxidation at Low Temperature

Singapore Patent Application No. 200502263-7 - Patent No. 136949

A Biomimetic Approach to Low-Cost Fabrication of Complex Nanostructures of Metal Oxides by Natural Oxidation at Low-Temperature

US Application No. 10/321,278 - Patent No. 7,056,471 B1

Ternary and Quarternary Nanocrystals, Processes for Their Production and Uses Thereof

PCT Application No. PCT/SG2003/000286 claiming priority to US application no. 10/321,278; ETPL: IMR/P/0986/1716/PCT

Ternary and Quarternary Nanocrystals, Processes for Their Production and Uses Thereof

Singapore Patent Application No. 200503808-8 - Patent No. 112683
Ternary and Quarternary Nanocrystals, Processes for Their Production and Uses Thereof

PCT Application No. WO2003003015

Methods of Preparing Multicolor Quantum Dot Tagged Beads and Conjugates Thereof

US Patent No. US20030148544 A1

Methods of Preparing Multicolor Quantum Dot Tagged Beads and Conjugates Thereof

EP No. 1410031 A2

Methods of Preparing Multicolor Quantum Dot Tagged Beads and Conjugates Thereof

Chinese Patent No. CA2450725A1

Methods of Preparing Multicolor Quantum Dot Tagged Beads and Conjugates Thereof



Last updated on : 08 Apr 2019 08:53 AM