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Journal of Plant Growth Regulation
|
May 25, 2002
The biophysical limitations in physiological transport and exchange in plants grown in microgravity
D Marshall Porterfield
Biosensors & Bioelectronics
|
July 28, 2006
Measuring metabolism and biophysical flux in the tissue, cellular and sub-cellular domains: recent developments in self-referencing amperometry for physiological sensing
D Marshall Porterfield
Mycology
|
December 3, 2025
Fungal graviresponses: Physiological and molecular insights from tissue reorientation in the gravity vector
Alexander Baena, D Marshall Porterfield
Chemical Society Reviews
|
July 16, 2011
Non-invasive tools for measuring metabolism and biophysical analyte transport: self-referencing physiological sensing
Eric S McLamore, D Marshall Porterfield
Biosensors & Bioelectronics
|
August 15, 2012
Nanomaterial based self-referencing microbiosensors for cell and tissue physiology research
Jin Shi, Eric S McLamore, D Marshall Porterfield
Methods in Molecular Biology (Clifton, N.J.)
|
September 6, 2017
Measuring Spatial and Temporal Oxygen Flux Near Plant Tissues Using a Self-Referencing Optrode
Eric S McLamore, D Marshall Porterfield, Yinglang Wan
Development (Cambridge, England)
|
May 7, 2004
Nitric oxide is involved in growth regulation and re-orientation of pollen tubes
Ana Margarida Prado, D Marshall Porterfield, José A Feijó
Methods in Molecular Biology (Clifton, N.J.)
|
August 17, 2012
Non-invasive flux measurements using microsensors: theory, limitations, and systems
Ian Newman, Shao-Liang Chen, D Marshall Porterfield, et al.
Planta
|
August 11, 2010
Self-referencing optrodes for measuring spatially resolved, real-time metabolic oxygen flux in plant systems
Eric S McLamore, David Jaroch, M Rameez Chatni, et al.
Biomedical Microdevices
|
August 5, 2009
Electrical characterization of a single cell electroporation biochip with the 2-D scanning vibrating electrode technology
Aeraj Ul Haque, Mahvash Zuberi, Ruben E Diaz-Rivera, et al.
Page
of 5
Search research articles
Search
Showing results (1-10 of 45) with videos related to
Sort By:
Page
of 5
Journal of Plant Growth Regulation
|
May 25, 2002
The biophysical limitations in physiological transport and exchange in plants grown in microgravity
D Marshall Porterfield
Biosensors & Bioelectronics
|
July 28, 2006
Measuring metabolism and biophysical flux in the tissue, cellular and sub-cellular domains: recent developments in self-referencing amperometry for physiological sensing
D Marshall Porterfield
Mycology
|
December 3, 2025
Fungal graviresponses: Physiological and molecular insights from tissue reorientation in the gravity vector
Alexander Baena, D Marshall Porterfield
Chemical Society Reviews
|
July 16, 2011
Non-invasive tools for measuring metabolism and biophysical analyte transport: self-referencing physiological sensing
Eric S McLamore, D Marshall Porterfield
Biosensors & Bioelectronics
|
August 15, 2012
Nanomaterial based self-referencing microbiosensors for cell and tissue physiology research
Jin Shi, Eric S McLamore, D Marshall Porterfield
Methods in Molecular Biology (Clifton, N.J.)
|
September 6, 2017
Measuring Spatial and Temporal Oxygen Flux Near Plant Tissues Using a Self-Referencing Optrode
Eric S McLamore, D Marshall Porterfield, Yinglang Wan
Development (Cambridge, England)
|
May 7, 2004
Nitric oxide is involved in growth regulation and re-orientation of pollen tubes
Ana Margarida Prado, D Marshall Porterfield, José A Feijó
Methods in Molecular Biology (Clifton, N.J.)
|
August 17, 2012
Non-invasive flux measurements using microsensors: theory, limitations, and systems
Ian Newman, Shao-Liang Chen, D Marshall Porterfield, et al.
Planta
|
August 11, 2010
Self-referencing optrodes for measuring spatially resolved, real-time metabolic oxygen flux in plant systems
Eric S McLamore, David Jaroch, M Rameez Chatni, et al.
Biomedical Microdevices
|
August 5, 2009
Electrical characterization of a single cell electroporation biochip with the 2-D scanning vibrating electrode technology
Aeraj Ul Haque, Mahvash Zuberi, Ruben E Diaz-Rivera, et al.
Page
of 5