Advanced Materials
This technology increases the energy output for optoelectronic applications by increasing the energy density in the longitudinal and transverse planes.
Inventor: Dr. Judson Ryckman
Published: 7/29/2020
Advanced Materials, Biotechnology
This fiber modification uses channels with re-entrant features in the shape of repeating trapezoids to create highly repellent textiles that resist attraction of both water and liquid chemicals, solvents, and oils.
Inventor: Philip Brown, Quoc Truong, Nicole Hoffman
Published: 7/29/2020
Advanced Materials, Biomedical
This capillary-channeled polymer (C-CP) fiber technology is a cost efficient and highly selective method to isolate exosomes facilitating widespread use of these cellular fragments for biomarker research, medical diagnostics, and targeted delivery of therapeutics
Inventor: Dr. R. Kenneth Marcus, Dr. Terri F. Bruce
Published: 7/28/2020
Advanced Materials, Biotechnology
Carbon dots (also called “carbon quantum dots”, “carbon nanodots”, etc.) represent a new class of photoactive nanomaterials that compete effectively with semiconductor quantum dots, a market that was valued at $961.4 million in 2013 and is projected to be larger than $5 billion in 2020.
Inventor: Dr. Ya-Ping Sun
Published: 7/18/2019
Advanced Materials
This hydrothermal approach to growing single crystal oxide hosts resolves the issues posed by amplified spontaneous emission (ASE). ASE is the result of unwanted internal reflection of photons at the lasing frequency within the laser crystal. The consequences of ASE include induced emission of ions from the excited state and unwanted internal lasing in random directions. These effects take away…
Inventor: Joseph Kolis, Colin Mcmillen
Published: 6/19/2019