Polymer-Based Removal of Pollutants from Contact Lenses
  • Effective: Removes large-particle pollutants as effectively as traditional cleaning solutions, and removes smaller pollutants and microplastics with significantly higher efficacy
  • Robust: Utilizes an elastic polymer that enables contact force between two elastic materials to do the work of removing particles of any size
  • Safe: Eliminates the need for soaking and rubbing removal methods that may tear or damage contact lenses
Life Sciences
3D Light-Field Endoscopy Using a Gradient Index Lens Array
  • Measurements: system achieves 'true quantitative' 3D information
  • Imaging and visualization: system brings a great potential for fast 3D quantitative imaging, visualization, and synthesis of the focal stacks
  • Material: method is glass-free
Life Sciences
Automated Medical Image Interpretation for Tissue Segmentation
  • Increased accuracy: Computer processing removes the need to manually interpret boundaries
  • Fast: The algorithm is extremely rapid, repeatable, and accurate
  • Versatile: Programs can be implemented in assembly or machine language
Life Sciences
A Method for Exhaustive CRISPR Off-Target Analysis
  • Provides exhaustive genomic searches for off-target sites due to mismatches, deletions, and insertions
  • Provides primers for experimental validation of predicted off-target sites
  • Facilitates experimental testing using assays or deep sequencing of potential off-target sites given in the output
Life Sciences
3D Printed Tissue-Mimicking Phantoms
  • Fabricates patient-specific tissue-mimicking phantoms with accurate biomechanical properties, in addition to accurate geometric properties
  • Associates biomechanical properties with gender, age, and other physiological/pathological conditions of the patient
Life Sciences
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