Pleasanton, California
United States
272
2026-02-12
The entities that hold a legal rights for patent applications filed by inventor Hedrick James L.:
James L. Hedrick from Pleasanton, US has applied for patents for these inventions. The list has both pending applications and granted patents:
ENABLING MULTI-MODAL SEMANTIC SEARCH FOR COMPLEX MATERIALS TO FACILITATE MATERIALS DESIGN AND DEVELOPMENT TASKS BY FOUNDATION MODELS
#2 | 2026-01-08CONSTRAINED GENERATION FOR ACCELERATED MATERIAL DISCOVERY AND DESIGN USING GENERATIVE ARTIFICIAL INTELLIGENCE MODELS
#3 | 2025-11-25Creating domain-specific language representations of chemical structures
#4 | 2025-09-25PROGRAMMING LANGUAGE AS A DATA STRUCTURE
#5 | 2025-02-06BASES FOR LOW-TEMPERATURE CARBON DIOXIDE CAPTURE AND RELEASE
#6 | 2024-12-26DICHLOROMETHANE-FREE SYNTHESIS OF CYCLOPROPENIMINES
#7 | 2024-12-05DEPOLYMERIZATION OF POLYURETHANES FOR CIRCULAR ECONOMY PLASTICS
#8 | 2024-03-14CYCLOPROPENIMINES FOR MINERALIZATION OF CARBON DIOXIDE
#9 | 2024-03-07CYCLOPROPENIMINES FOR ACTIVATION OF CARBON DIOXIDE
#10 | 2024-03-07CYCLOPROPENIMINES FOR ACTIVATION OF CARBON DIOXIDE
#11 | 2024-01-04RING-OPENING POLYMERIZATIONS USING A FLOW REACTOR
#12 | 2023-10-19POLYLYSINE POLYMERS WITH ANTIMICROBIAL AND/OR ANTICANCER ACTIVITY
#13 | 2023-09-21Cyclopropeneimines for capture and transfer of carbon dioxide
#14 | 2023-09-21Cyclopropeneimines for capture and transfer of carbon dioxide
#15 | 2023-04-20Biocompatible and biodegradable antiviral polymers
#16 | 2023-02-02Post polymerization modification in flow
#17 | 2023-01-12AI assisted cyclic carbonate monomer synthesis
#18 | 2022-12-08BIODEGRADABLE HYDROGEL AND METHODS FOR USE THEREOF
#19 | 2022-12-01SYNTHESIS OF POLYURETHANE POLYMERS IN FLOW REACTORS
#20 | 2022-09-15MATERIAL REPRESENTATION IN COMPUTATIONAL SYSTEMS
#21 | 2022-08-25Combination therapies that enhance antimicrobial/anticancer activities
#22 | 2022-08-04PROCESS CONFIGURATION GENERATION AND SIMULATION
#23 | 2022-08-04Laser-assisted transdermal delivery of nanoparticulates and hydrogels
#24 | 2022-02-24Biodegradable functional polycarbonate nanoparticle carries for delivering molecular cargo
#25 | 2022-02-10Antimicrobial guanidinium macromolecules with bacteria targeting moieties
#26 | 2022-01-27Functionalized bile acids for therapeutic and material applications
#27 | 2022-01-13ARTIFICIAL INTELLIGENCE DESIGNED ANTIMICROBIAL PEPTIDES
#28 | 2021-12-30TECHNIQUES FOR ENHANCING THE SELECTIVITY AND EFFICACY OF ANTIMICROBIAL AND ANTICANCER POLYMER AGENTS
#29 | 2021-12-30Biodegradable cationic polycarbonates as adjuvants for vaccines
#30 | 2021-12-02Ring-opening polymerizations using a flow reactor
#31 | 2021-11-25Post polymerization modification in flow
#32 | 2021-11-25Artificial intelligence designed antimicrobial peptides
#33 | 2021-10-21Chemical compounds with perfluoroaryl groups that can facilitate post-synthesis functionalization
#34 | 2021-09-30EXPERT-IN-THE-LOOP AI FOR MATERIALS GENERATION
#35 | 2021-09-30Expert-in-the-loop AI for materials discovery
#36 | 2021-09-30Combination therapies that enhance antimicrobial/anticancer activities
#37 | 2021-09-23Polymer technology for use in flow reactors
#38 | 2021-09-23Polymers with antimicrobial functionalities
#39 | 2021-08-12Polylysine polymers with antimicrobial and/or anticancer activity
#40 | 2021-07-15ANTIMICROBIAL POLYCARBONATES FOR MULTIDRUG RESISTANT BACTERIA
#41 | 2021-07-15Antimicrobial polymers capable of supramolecular assembly
#42 | 2021-05-20Stimulus-responsive micellar carrier
#43 | 2021-04-29Utilizing polymers and antibiotics to enhance antimicrobial activity and inhibit antibiotic resistance
#44 | 2021-02-11Polylysine polymers with antimicrobial and/or anticancer activity
#45 | 2021-02-11Chemical compositions with antimicrobial functionality
#46 | 2021-02-11Combination therapy to achieve enhanced antimicrobial activity
#47 | 2020-12-31Ring-opening polymerizations using a flow reactor
#48 | 2020-12-24Generating control settings for a chemical reactor
#49 | 2020-12-24Controlling a chemical reactor for the production of polymer compounds
#50 | 2020-07-16Polymers with antimicrobial functionalities
#51 | 2020-07-16Antimicrobial polymers capable of supramolecular assembly
#52 | 2020-06-25Hydrogels from dynamic covalent networks
#53 | 2020-06-04Functionalized bile acids for therapeutic and material applications
#54 | 2020-05-28Biodegradable functional polycarbonate nanoparticle carries for delivering molecular cargo
#55 | 2020-05-28Techniques for enhancing the selectivity and efficacy of antimicrobial and anticancer polymer agents
#56 | 2020-05-21Biodegradable hydrogel and methods for use thereof
#57 | 2020-05-14Star polymers with enhanced antimicrobial activity in response to light
#58 | 2020-04-02Utilizing polymers and antibiotics to enhance antimicrobial activity and inhibit antibiotic resistance
#59 | 2020-03-19Antimicrobial guanidinium and thiouronium functionalized polymers
#60 | 2020-03-12Biodegradable polymers, complexes thereof for gene therapeutics and drug delivery, and methods related thereto
#61 | 2020-03-12Antimicrobial guanidinium and thiouronium functionalized polymers
#62 | 2020-03-05Prevention of biofilm formation
#63 | 2020-03-05Prevention of biofilm formation
#64 | 2020-03-05Tailorable surface topology for antifouling coatings
#65 | 2020-02-13Highly hydrophobic antifouling coatings for implantable medical devices
#66 | 2020-02-13Method to generate microcapsules with hexahydrotriazine (HT)-containing shells
#67 | 2020-01-09Ring-opening polymerizations using a flow reactor
#68 | 2020-01-09Ring-opening polymerizations using a flow reactor
#69 | 2020-01-09Ring-opening polymerizations using a flow reactor
#70 | 2019-12-26Antimicrobial polycarbonates for multidrug resistant bacteria
#71 | 2019-12-26Antimicrobial guanidinium macromolecules with bacteria targeting moieties
#72 | 2019-11-21Laser-assisted transdermal delivery of nanoparticulates and hydrogels
#73 | 2019-11-07Laser-assisted transdermal delivery of nanoparticulates and hydrogels
#74 | 2019-10-10Block copolymers and self-assembling nanoparticles formed therefrom
#75 | 2019-07-18Photoresponsive hexahydrotriazine polymers
#76 | 2019-07-11Porous/nanoporous PHT
#77 | 2019-07-11Functionalized bile acids for therapeutic and material applications
#78 | 2019-06-13Polyhemiaminal and polyhexahydrotriazine materials from 1,4 conjugate addition reactions
#79 | 2019-06-13Chemical compositions with antimicrobial functionality
#80 | 2019-06-13Chemical compounds with perfluoroaryl groups that can facilitate post-synthesis functionalization
#81 | 2019-06-13Monomer compositions with antimicrobial functionality
#82 | 2019-06-13Polymers with antimicrobial functionalities
#83 | 2019-06-13Hydrophilic polymers with antimicrobial functionalities
#84 | 2019-06-13Antimicrobial ionene compositions with a variety of functional groups
#85 | 2019-06-13Antimicrobial polymers with enhanced functionalities
#86 | 2019-06-13Antimicrobial polymers capable of supramolecular assembly
#87 | 2019-06-06Block copolymers and self-assembling nanoparticles formed therefrom
#88 | 2019-05-30Antimicrobial star polymers with light-activated enhanced antimicrobial activity
#89 | 2019-05-30Star polymers with enhanced antimicrobial activity in response to light
#90 | 2019-05-23Functionalized bile acids for therapeutic and material applications
#91 | 2019-05-09Silica-based organogels via hexahydrotriazine-based reactions
#92 | 2019-05-09Porous/nanoporous PHT
#93 | 2019-05-09Sulfur scavenging materials
#94 | 2019-03-14Preparation of robust polythioaminal carriers
#95 | 2019-02-14Fluorinated networks for anti-fouling surfaces
#96 | 2019-02-14Tailorable surface topology for antifouling coatings
#97 | 2019-02-07Systems chemistry approach to polyhexahydrotriazine polymeric structures
#98 | 2018-11-29Amine glyoxal resins
#99 | 2018-11-22Lactide-derived polymers with improved materials properties via polyhexahydrotriazines (PHT) reaction
#100 | 2018-10-25Highly hydrophobic antifouling coatings for implantable medical devices
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