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2D Titanium Carbide (Ti3C2Tx ) in Accommodating Intraocular Lens Design
Emma J. Ward
, Joseph Lacey
, Cyril Crua
,
Marcus K. Dymond
, Kathleen Maleski
, Kanit Hantanasirisakul
, Yury Gogotsi
,
Susan Sandeman
Applied Chemical Sciences Research Excellence Group
School of Applied Sciences
Doctoral College
Advanced Engineering Centre
Centre for Regenerative Medicine and Devices
Centre for Lifelong Health
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Dive into the research topics of '2D Titanium Carbide (Ti3C2Tx ) in Accommodating Intraocular Lens Design'. Together they form a unique fingerprint.
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Keyphrases
Ti3C2Tx
100%
2D Titanium Carbide
100%
Accommodating Intraocular Lens
100%
Lens Design
100%
Test Cell
50%
Adjustable Focus
50%
Liquid Crystal Layer
50%
Optical Power
50%
Inflammatory Response
25%
Intraocular Lens
25%
Biocompatibility
25%
Visual Acuity
25%
Solid Support
25%
Hydrophilicity
25%
Transmittance
25%
Monocytic Cells
25%
MXene-based Composites
25%
Optical Transparency
25%
Optoelectronic Properties
25%
Ti3C2Tx MXene
25%
Applied Electric Field
25%
Acrylate
25%
Molecular Reorientation
25%
Human Lens Epithelial Cells
25%
Out-of-focus
25%
Nitride MXenes
25%
Accommodative Function
25%
Cataract Patients
25%
Transparent Electrode
25%
High Electronic Conductivity
25%
Sheet Resistance
25%
Visible Region
25%
Engineering
Test Cell
100%
Lens Design
100%
Optical Power
100%
Liquid Crystal
100%
Optoelectronics
50%
Hydrophobic
50%
Conductive
50%
Optical Transparency
50%
Applied Electric Field
50%
MXene
50%
Natural Lens
50%
Electronic Conductivity
50%
Sheet Resistance
50%
Nitride
50%
Field Result
50%
Hydrophilicity
50%
Medicine and Dentistry
Intraocular Lens
100%
Optical Power
100%
Accommodating Intraocular Lens
100%
Titanium Carbide
100%
Serositis
50%
Biocompatibility
50%
Visual Acuity
50%
Cataract
50%
Acrylic Acid
50%
Transition Element
50%
Material Science
Intraocular Lens
100%
Titanium Carbide
100%
Optical Power
33%
Liquid Crystal
33%
Biocompatibility
16%
MXene
16%
Nitride Compound
16%
Transition Metal Carbide
16%