Search Results - howard+stone

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Jet Assisted Wet Spinning of Photopolymerizable Material
Jet Assisted Wet Spinning of Photopolymerizable Material Princeton Docket # 22-3931-1 Jet Assisted Wet Spinning (JAWS), an innovative fiber manufacturing technology developed by Princeton University researchers, offers unparalleled control and versatility in producing photopolymerized fibers. The process enables precise diameter tuning, allowing for...
Published: 9/19/2024   |   Inventor(s): Howard Stone, Zehao Pan, Janine Nunes
Keywords(s):  
Category(s): Mechanical Engineering and Robotics
Method to control and manipulate floating water droplets
Method to control and manipulate floating water droplets Princeton Docket # 24-4117-1 This new technology developed by researchers at Princeton University represents a significant advancement in the field of interfacial self-assembly and droplet manipulation. Previous technologies in this area have been limited in their ability to precisely control...
Published: 9/18/2024   |   Inventor(s): Howard Stone, Paul Kaneelil, Amir Pahlavan, J. Pedro de Souza, Günther Turk
Keywords(s):  
Category(s): Mechanical/Electrical Engineering
CO2-driven Diffusiophoresis of Colloidal Particles and Bacterial Cells
Surface contamination due to the accumulation of particles and biofilm formation causes fouling of surfaces and malfunction of devices that process particulate materials (e.g. water purifying systems and medical devices). Researchers at Princeton have invented a novel process and a method for improving existing processes for the separation of particles...
Published: 9/26/2023   |   Inventor(s): Suin Shim, Howard Stone
Keywords(s):  
Category(s): Biotechnology/Pharmaceuticals, Mechanical/Electrical Engineering
Viscous Withdrawal for Micro-jet and Micro-drop Production
The study of microscale drop or jet generation has catalyzed the invention of numerous biomedical and industrial technologies. Existing shear-based technologies require active control of both the continuous and the dispersed phases, therefore limiting their capacity for large scale parallelization.Researchers at Princeton University have invented a...
Published: 5/26/2022   |   Inventor(s): Zehao Pan, Janine Nunes, Howard Stone
Keywords(s):  
Category(s): Mechanical/Electrical Engineering
Economical and Scalable Production of Submicron Particles and Coatings at Room Temperature
Economical and Scalable Production of Submicron Particles and Coatings at Room TemperaturePrinceton Docket # 17-3329The laboratory of Prof. Howard Stone has developed a novel technology for economical and scalable synthesis and production of submicron/nano-scale and nanostructured particulate materials. The technology incorporates unique liquid atomization...
Published: 2/14/2024   |   Inventor(s): Maksym Mezhericher, Howard Stone, Janine Nunes
Keywords(s):  
Category(s): Biotechnology/Pharmaceuticals, Mechanical/Electrical Engineering, Materials
Continuous and Membrane-less Filtration of Colloidal Particulates
Continuous and Membrane-less Filtration of Colloidal Particulates Princeton Dockets # 17-3285-1, 16-3249-1 A novel method and device for separating suspended colloidal particles from aqueous stream without the use of a physical filter that is energy efficient, chemically non-invasive, and continuous. This method offers the potential to transform the...
Published: 9/18/2024   |   Inventor(s): Sangwoo Shin, Orest Shardt, Patrick Warren, Howard Stone
Keywords(s):  
Category(s): Biotechnology/Pharmaceuticals, Mechanical/Electrical Engineering, Medical Devices/Diagnostics
Injectable Hydrogels From Microfiber Suspensions
Princeton Docket # 15-3163-1Researchers at Princeton University, Department of Mechanical and Aerospace Engineering, have developed a new hydrogel material.This invention describes a new type of hydrogel material composed of flexible hydrophilic microfibers. A concentrated suspension of the microfibers undergoes irreversible gelation using a simple...
Published: 5/23/2022   |   Inventor(s): Janine Nunes, Antonio Perazzo, Stefano Guido, Howard Stone
Keywords(s):  
Category(s): Materials
Inhibiting Bacteria Infection in Healthcare Devices through Surface Chemistry Treatments and Fluid Flow Control
Princeton Docket # 15-3109-1Researchers in the Departments of Molecular Biology and Mechanical and Aerospace Engineering at Princeton University have designed new methods to effectively inhibit the entry, spread and growth of bacteria. The entry of pathogenic bacteria into fluid-filled networks of the body causes serious infection and sepsis. In particular,...
Published: 2/14/2024   |   Inventor(s): Howard Stone, Zemer Gitai, Min Kim, Yi Shen, Albert Siryaporn
Keywords(s):  
Category(s): Medical Devices/Diagnostics
Microfluidic Method for Continuous Production of Microfibers With Embedded Droplets
Microfluidic Method for Continuous Production of Microfibers with Embedded Droplets Princeton Docket #14-2982 Fibers are a useful medium for numerous applications, including drug delivery. Current technologies usually make fibers of homogeneous chemical composition or employ axial core-shell structures. To create more complex shapes and compositions,...
Published: 3/30/2022   |   Inventor(s): Howard Stone, Janine Nunes, Eujin Um, Tamara Pico
Keywords(s): drug delivery, life science research tools, regenerative medicine, research tool, soft scaffolds, therapeutic, tissue engineering, tissue repair, wound healing
Category(s): Medical Devices/Diagnostics
Droplet Adhesion for Breaking Oil-In-Water Emulsion and Phase Separation
Droplet Adhesion for Breaking an Oil-in-Water Emulsion and Phase Separation Princeton Docket # 14-2952 Present microfluidic technologies to break emulsions or to separate phases in the emulsions include electric-field enhanced coalescence, passive-controlled coalescence, and a phase separator with embedded porous membrane. Researchers in the Department...
Published: 5/23/2022   |   Inventor(s): Howard Stone, Jiang Li, Haosheng Chen, Enkai Dong
Keywords(s): Chemistry, water
Category(s): Chemistry
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