Christopher Cummins

Henry Dreyfus Professor of Chemistry

Department

Department of Chemistry

Technology Areas

Energy & Distribution: Electrochemical Devices, Photovoltaics / Chemicals & Materials: Catalysis & Synthesis / Electronics & Photonics: Semiconductors

Impact Areas

Sustainable Future, Advanced Materials

Technologies

Facile Preparation of Flame-Retardant, Non-Toxic Phosphate Ester Ionic Liquid Electrolytes

Technology / #18800QJ

Matthew Nava / Shiyu Zhang / Christopher Cummins / Daniel Nocera

Technology Areas: Energy & Distribution

Impact Areas: Sustainable Future, Advanced Materials

License

Synthesis of Polyphosphorylated Molecules Directly from Polyphosphates

Technology / #20486

Scott Shepard / Christopher Cummins

Technology Areas: Chemicals & Materials

Impact Areas: Advanced Materials

License

Method for Preparing the Trichlorosilylsulfide Anion and Its Use in the Preparation of Organosulfur Compounds

Technology / #20720

Michael Geeson / Wesley Transue / Pablo Rios Moreno / Christopher Cummins

Technology Areas: Chemicals & Materials / Electronics & Photonics / Energy & Distribution

Impact Areas: Sustainable Future, Advanced Materials

License

Method for Producing Phosphorus Chemicals from Wet Process Phosphate

Technology / #19984

Michael Geeson / Christopher Cummins

Technology Areas: Chemicals & Materials

Impact Areas: Advanced Materials

License

Protect

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License

Learn

Connect

Protect

Learn

Connect

License

Learn

Connect

Christopher Cummins

Technologies

Facile Preparation of Flame-Retardant, Non-Toxic Phosphate Ester Ionic Liquid Electrolytes

Synthesis of Polyphosphorylated Molecules Directly from Polyphosphates

Method for Preparing the Trichlorosilylsulfide Anion and Its Use in the Preparation of Organosulfur Compounds

Method for Producing Phosphorus Chemicals from Wet Process Phosphate

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