Add to ORKGThesis (Ph.D.)--University of Washington, 2015Protons (H+) play an important role in controlling cell function and metabolic processes in biological systems. H+ current affects a broad range of biological activities, from ATP synthesis in mitochondria[1] to neuron signaling in the brain.[2, 3] Being able to control H+ transfer with artificial devices would provide new opportunities to study the effect of H+ on biological functions. This understanding will be vital in the development of novel therapies and sensors based on proton flux. This thesis focuses on controlling H+ transfer in biopolymers with artificial devices. I first study the dynamics of palladium hydride (PdHx) as H+ injecting contacts and its use in protonic conducting devices...
Bioelectronics is an interdisciplinary field of materials science, electrical engineering, and biote...
Potentiometric pH measurements have long been used for the bioanalysis of biofluids, tissues, and ce...
(a) Pd contact with SLB incorporating 0.8 nm diameter CNTPs with K-HEPES buffer at pH = 6.0, is semi...
Thesis (Ph.D.)--University of Washington, 2016-06The flow of protons is vital in biology, driving na...
The ability of bioelectronic devices to conduct protons and other ions opens up opportunities to int...
Bioelectronics is an exciting field that combines electrical and computer engineering, materials sci...
Bioelectronics is an exciting field that combines electrical and computer engineering, materials sci...
In biological systems, intercellular communication is mediated by membrane proteins and ion channels...
Translating ionic currents into measureable electronic signals is essential for the integration of b...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Ion transport systems are critical to many societal challenges, particularly in applications involve...
The field of bioelectronics has the potential to revolutionize both fundamental biology and personal...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Ion transport systems are critical to many societal challenges, particularly in applications involve...
Bioelectronics is an interdisciplinary field of materials science, electrical engineering, and biote...
Potentiometric pH measurements have long been used for the bioanalysis of biofluids, tissues, and ce...
(a) Pd contact with SLB incorporating 0.8 nm diameter CNTPs with K-HEPES buffer at pH = 6.0, is semi...
Thesis (Ph.D.)--University of Washington, 2016-06The flow of protons is vital in biology, driving na...
The ability of bioelectronic devices to conduct protons and other ions opens up opportunities to int...
Bioelectronics is an exciting field that combines electrical and computer engineering, materials sci...
Bioelectronics is an exciting field that combines electrical and computer engineering, materials sci...
In biological systems, intercellular communication is mediated by membrane proteins and ion channels...
Translating ionic currents into measureable electronic signals is essential for the integration of b...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Ion transport systems are critical to many societal challenges, particularly in applications involve...
The field of bioelectronics has the potential to revolutionize both fundamental biology and personal...
Hybrid biotic abiotic devices can be used to interface electronics with biological systems for novel...
Ion transport systems are critical to many societal challenges, particularly in applications involve...
Bioelectronics is an interdisciplinary field of materials science, electrical engineering, and biote...
Potentiometric pH measurements have long been used for the bioanalysis of biofluids, tissues, and ce...
(a) Pd contact with SLB incorporating 0.8 nm diameter CNTPs with K-HEPES buffer at pH = 6.0, is semi...