1
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Multifunctional conducting polymer structures. Santa Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, March 23, 2010: US07683643 (4 worldwide citation)

The present invention includes the use of conducting polymers as sensors in distributed sensing systems, as sensors and operating elements in multifunctional devices, and for conducting-polymer based multifunctional sensing fabrics suitable for monitoring humidity, breath, heart rate, blood (locatio ...


2
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Multifunctional conducting polymer structures. Santa Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, December 9, 2008: US07463040 (4 worldwide citation)

The present invention includes the use of conducting polymers as sensors in distributed sensing systems, as sensors and operating elements in multifunctional devices, and for conducting-polymer based multifunctional sensing fabrics suitable for monitoring humidity, breath, heart rate, blood (locatio ...


3
Benjamin Mattes
Wen Lu, Elisabeth Smela, Phillip N Adams, Guido Zuccarello, Benjamin R Mattes: Solid-in-hollow polymer fiber electrochemical devices. Santa Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, October 30, 2007: US07288871 (1 worldwide citation)

A linear electrochemical actuator is described where at least one electrically conductive (between 400 and 1000 S/cm), doped polyaniline solid fiber or a yarn produced from such fibers is disposed in an electrolyte inside of a electrically conductive polyaniline hollow fiber, thereby allowing 2-elec ...


4
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Resistive heating using polyaniline fiber. Sante Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, November 7, 2006: US07132630

The use of conductive polyaniline fibers for resistive heating applications is described. Unlike metal wires and conductive-polymer coated fibers, under certain conditions, electric voltages or currents used to generate heat in the fibers were found to produce irreversible changes to the polymer bac ...


5
Benjamin Mattes
Benjamin R Mattes, Phillip N Adams, Dali Yang, Lori A Brown, Andrei G Fadeev, Ian D Norris: Spinning, doping, dedoping and redoping polyaniline fiber. Santa Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, April 23, 2013: US08425822

A composition of matter suitable for spinning polyaniline fiber, a method for spinning electrically conductive polyaniline fiber, a method for exchanging dopants in polyaniline fibers, and methods for dedoping and redoping polyaniline fibers are described.


6
Benjamin Mattes
Benjamin R Mattes, Phillip N Adams, Dali Yang, Lori A Brown, Andrei G Fadeev, Ian D Norris: Spinning, doping, dedoping and redoping polyaniline fiber. Santa Fe Science & Technology, Samuel M Freund, Cochran Freund & Young, March 1, 2011: US07897082

A composition of matter suitable for spinning polyaniline fiber, a method for spinning electrically conductive polyaniline fiber, a method for exchanging dopants in polyaniline fibers, and methods for dedoping and redoping polyaniline fibers are described.


7
Benjamin Mattes
Benjamin R Mattes, Phillip N Adams, Dali Yang, Lori A Brown, Andrei G Fadeev, Ian D Norris: Spinning, doping, dedoping and redoping polyaniline fiber. Santa Fe Science and Technology, Samuel M Freund, Cochran Freund & Young, December 8, 2009: US07628944

A composition of matter suitable for spinning polyaniline fiber, a method for spinning electrically conductive polyaniline fiber, a method for exchanging dopants in polyaniline fibers, and methods for dedoping and redoping polyaniline fibers are described.


8
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Resistive heating using polyaniline fiber. Cochran Freund & Young, July 29, 2004: US20040144772-A1

The use of conductive polyaniline fibers for resistive heating applications is described. Unlike metal wires and conductive-polymer coated fibers, under certain conditions, electric voltages or currents used to generate heat in the fibers were found to produce irreversible changes to the polymer bac ...


9
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Multifunctional conducting polymer structures. Cochran Freund & Young, March 24, 2005: US20050062486-A1

The present invention includes the use of conducting polymers as sensors in distributed sensing systems, as sensors and operating elements in multifunctional devices, and for conducting-polymer based multifunctional sensing fabrics suitable for monitoring humidity, breath, heart rate, blood (locatio ...


10
Benjamin Mattes
Baohua Qi, Benjamin R Mattes: Multifunctional conducting polymer structures. Santa Fe Science and Technology, Cochran Freund & Young, July 8, 2010: US20100170886-A1

The present invention includes the use of conducting polymers as sensors in distributed sensing systems, as sensors and operating elements in multifunctional devices, and for conducting-polymer based multifunctional sensing fabrics suitable for monitoring humidity, breath, heart rate, blood (locatio ...



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