Eugene Chen, PhD

Professor, John K. Stille Endowed Chair in Chemistry

Areas of Collaborative Interest

My lab researches intrinsically recyclable polymers; renewable monomers and sustainable polymers; precision (stereoselective, chemoselective & living) polymer synthesis; Lewis pair polymerization; new polymerization methodology; transition-metal, main-group & organic catalysis; biomass conversion to fuels, chemicals & materials.

I am interested in collaborating in the following areas:

  • licensing our technologies
  • recyclable polymers
  • new polymerization methodolgies
Select Issued Patents

 

  • US20190211144A1:  Synthesis of crystalline polymers from cyclic diolides
  • US20190040191A1:  Recyclable polymers based on ring-fused gamma-butyrolactones
  • US9840485B1, EP3519395A1:  Bisfuran dihalide, method for producing bisfuran dihalide, and method for producing bisfuran diacid, bisfuran diol or bisfuran diamine using bisfuran dihalide
  • US9828354B2:  Biorefining compounds and organocatalytic upgrading methods
  • US10174161B2:  Transformation of meso-lactide
  • WO2016195115A1:  Supported catalyst for aldehyde coupling reaction, method for performing aldehyde coupling reaction, and method for regenerating supported catalyst for aldehyde coupling reaction
  • WO2016164911A2:  Ring-opening polymerization methods and recyclable biorenewable polyesters
  • US9309332B2:  Polymerization catalysts, methods and products
  • US7205164B1:  Methods for fabricating magnetic cell junctions and a structure resulting and/or used for such methods*
  • US7283384B1:  Magnetic memory array architecture*
  • WO2004079744A3:  Magnetic memory cell junction and method for forming a magnetic memory cell junction*
  • US6904571B1:  Algorithm and methodology for the polygonalization of sparse circuit schematics*
  • US6683815B1:  Magnetic memory cell and method for assigning tunable writing currents*
  • WO2003000750A1, AU2002318399A1:  Polymerization processes using a highly active catalyst
  • US6387838B2:  Activator composition comprising aluminum compound mixture*
  • US6528449B1:  Three coordinate aluminum catalyst activator composition*
  • US6673735B1, TW500731B:  Preparation of catalyst compositions*
  • US6683199B1, CA2387258A1:  Dicationic non-metallocene group 4 metal complexes*
  • EP1054449A2:  Magnetic random access memory and fabricating method thereof*
  • DE60003430T2:  Dimers group 4 metallocene in +3 oxidation state*
  • US6284698B1:  Highly activated bimetallic complexes and polymerization process*
  • US6696379B1:  Supported modified alumoxane catalyst activator*
  • US6160146A:  Process for preparing trifluoroarylaluminum etherates*
  • US6127563A:  Integrated process for preparation of diene complexes*
  • EP0991078A3:  Quantum random address memory with magnetic readout and/or nano-memory elements*
  • EP1114055A1:  Dinuclear fluoroaryl aluminum alkyl complexes*
  • MY133950A:  ANSA GROUP 4 METAL BIS ( µ-SUBSTITUTED ) ALUMINUM COMPLEXES*
  • MY133949A:  ANSA GROUP 4 METAL BIS (µ-SUBSTITUTED) ALUMINUM METALLOCENES*
  • TW460491B:  Catalyst activator composition*
  • CZ2000981A3:  Modified aluminoxane catalyst activator, catalytic system and polymerization process*
  • US6321367B1:  Apparatus and method for automatically generating circuit layouts*

 

*Assignee other than the Colorado State University Research Foundation

Patent list generated using Google Patents; Last updated on December 16, 2019.

Hidden text – because the “design” is “light” text:

Eugene Y. Chen, Eugene Y. X. Chen,