Search Results - jin+luo

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Dynamic-based Computational Drug Design Strategy for WW Domains
Understanding the relationship between protein sequence-structure and binding dynamics is not well understood. Of particular interest is the ability to relate foldability and function of a protein and the ability to characterize how foldability and binding change based on mutations in the protein sequence. WW domains are one of the most abundant independently...
Published: 6/3/2025   |   Inventor(s): Jin Lu, Ismail Can Kazan, Sefika Banu Ozkan
Keywords(s):  
Category(s): Artificial Intelligence/Machine Learning, Life Science (All LS Techs), Proteomic Assays/Reagents/Tools
Smarter Catalyst Design: Low Platinum-Alloy Nanoparticles Make Fuel Cells Cheaper and More Powerful
Title: Smarter Catalyst Design: Low Platinum-Alloy Nanoparticles Make Fuel Cells Cheaper and More Powerful This invention introduces a refined process to produce platinum alloy catalysts with higher performance and durability for fuel cells by using inert/reducing gas treatment and sequential annealing to boost activity, stability, and cost-effectiveness....
Published: 9/2/2025   |   Inventor(s): Chuan Jian Zhong, Jin Luo, Peter Njoki, Bridgid Wanjala, Rameshinori Loukrakparm
Keywords(s): #SUNYresearch, CleanTech, Technologies
Category(s): Technology Classifications > Nanotechnology, Technology Classifications > Clean Energy, Campus > Binghamton University
Synthesis and Processing of PtCo Nanoparticles of Controllable Composition and Sizes and Carbon-supported PtCo Catalysts
Synthesis of monodispersed PtCo nanoparticles of controllable composition and sizes (1-10 nm) and preparation of carbon-supported PtCo catalysts for PEM fuel cell cathode reaction. Technology Overview: A method for ynthesis of monodispersed PtCo nanoparticles of controllable composition and sizes (1-10 nm) and preparation of carbon-supported...
Published: 8/21/2025   |   Inventor(s): Chuan Jian Zhong, Jin Luo, Zhichuan Xu, Ting He
Keywords(s): #SUNYresearch, CleanTech, Technologies
Category(s): Technology Classifications > Clean Energy, Technology Classifications > Nanotechnology, Campus > Binghamton University
Room-Temperature Sinterable Copper-Gold Alloy Nanoparticle Inks
Highly stable, Room-Temperature Sinterable Copper-Gold Alloy Nanoparticle ink technology for high-performance electronics Technology Overview: This new technology features a new copper-gold (CuAu) alloy nanoparticle ink technology in which the CuAu alloy nanoparticle ink can be printed on a substrate and become electrically conductive at room...
Published: 8/21/2025   |   Inventor(s): Chuan Jian Zhong, Shiyao Shan, Jin Luo
Keywords(s): #SUNYresearch, Technologies
Category(s): Technology Classifications > Electronics, Campus > Binghamton University
Catalysts with Significantly-Reduced Noble Metal Content for Emission Control Systems
Reduction of the content of noble metals by up to 70% in existing catalysts for emission control systems to reduce cost but maintain performance. Background: There is an increasingly stringent emission regulation due to global concerns over the environmental pollution and air quality. The use of pure or high levels of noble metals (Pt, Rh, Pd)...
Published: 8/21/2025   |   Inventor(s): Chuan Jian Zhong, Shiyao Shan, Jin Luo
Keywords(s): #SUNYresearch, CleanTech, Technologies
Category(s): Technology Classifications > Clean Energy, Campus > Binghamton University
Network-Coded Multiple Access
[Licensing negotiation in progress] [Invitation for Expression of Interest - Deadline: 16 June 2016] Systems and methods include a first wireless local area network (WLAN) system that jointly exploit physical-layer network coding (PNC) and multi-user decoding (MUD) to boost system throughput. This multiple access mode is referred to as Network-Coded...
Published: 1/29/2024   |   Inventor(s): Soung Chang Liew, Lu LU, Lizhao You
Keywords(s): Network Coding, Wireless Local Area Network
Category(s): Information and Communications Technology