jing+li - Available Technologies | Rutgers University Innovation Ventures

Search Results - jing+li

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Robust, Eco-friendly, Strongly Luminescent, and Highly Soluble Hybrid Materials
​ ​ CuX-bsed AIO-type hybrid luminescent materials incorporating ionic and coordinate bonds Invention Summary: Copper halide (CuX) based inorganic-organic hybrid luminescent materials (HLMs) have distinct advantages including low-cost, non-toxicity, high stability, strong luminescence (IQY: ~98% @ 365 nm excitation and ~76% @ 450 nm excitation)...
Published: 2/24/2023   |   Inventor(s): Jing Li, Wei Liu, Kun Zhu
Keywords(s): LEDs, Photonics and photovoltaics
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Polymers/Composites/Materials
Novel Rare Earth Element-Free Lighting Phosphors with High Quantum Efficiency and Enhanced Thermal and Photostability
​ ​ Invention Summary: Light-emitting diodes (LEDs), the main branch of solid-state-lighting (SSL) technology, are rapidly replacing conventional lighting sources because they are much more energy-efficient and longer-lasting. However, current LED devices rely heavily on rare-earth elements, which are in severe cost and supply risk in addition...
Published: 10/25/2022   |   Inventor(s): Jing Li, Yang Fang, Wei Liu
Keywords(s): LEDs, Photonics and photovoltaics
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Polymers/Composites/Materials, Technology Classifications > Electronics/Semiconductor
A Novel, Tailor-Made MOF for Exceptionally Efficient Separation of Propane and Propylene
Invention Summary: Separating mixtures of propane and propylene is often challenging and energy intensive. In industrial settings this separation is typically performed by cryogenic distillation, requiring low temperature and/or pressure. Metal-organic frameworks (MOFs) are emerging as promising low-energy alternatives to energy-intensive distillations,...
Published: 7/20/2022   |   Inventor(s): Jing Li, Hao Wang
Keywords(s): Chemical and petrochemical industry
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Nanotechnology
Novel metal-organic frameworks for efficient separation of alkane isomers
Schematic representation of two-stage MOFs absorbent bed for the separation of alkane mixtures to pure form of each isomer (straight line, mono-branched and di-branched) Invention Summary: The separation of alkane isomers represents a critical yet challenging process in the petrochemical industry to produce high-quality gasoline. As an alternative...
Published: 7/20/2022   |   Inventor(s): Jing Li, Hao Wang
Keywords(s): Chemical and petrochemical industry
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Polymers/Composites/Materials
A Molecular Trap for Capturing Radioactive Organic Iodides from Nuclear Waste
Molecular trap is 340% more efficient than current processes Invention Summary: Rutgers University researchers have developed a metal-organic framework (MOF) molecular trap to remove radioactive organic iodides (ROI) from nuclear waste streams. Nuclear power provides ~11% of the world’s electricity currently. How to safely dispose nuclear...
Published: 7/21/2022   |   Inventor(s): Jing Li, Baiyan Li
Keywords(s): Chemical and petrochemical industry, Cleaning/Disinfecting Products, Nanotechnology
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Polymers/Composites/Materials