Studying the Effect of Membrane Thickness on the Performance of Green ISE-Potentiometric Sensors: Application to Ritodrine HCl and Its Active Impurity, Tyramine

Experimental point-projection shadow microscope (PPM) images of uncoated, unstained purple membrane (PM, bacteriorhodopsin, a membrane protein from Halobacterium holobium) were obtained recently using 100 volt electrons. The membrane thickness is about 5 nm and the hexagonal unit cell dimension 6 nm. The images show contrast around the edges of small holes, as shown in figure 1. The interior of the film is opaque. Since the inelastic mean free path for 100V electrons in carbon (about 6 Å) is much less than the sample thickness, the question arises that how much, if any, transmission of elastically scattered electrons occurs. A large inelastic contribution is also expected, attenuated by the reduced detection efficiency of the channel plate at low energies. Quantitative experiments using an energy-loss spectrometer are planned. Recently Shedd has shown that at about 100V contrast in PPM images of thin gold films can be explained as Fresnel interference effects between different pinholes in the film, separated by less than the coherence width.

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Basement membrane thickness in muscle capillaries of normal and spontaneously diabetic Macaca nigra

Diabetes ◽

10.2337/diabetes.24.2.201 ◽

1975 ◽

Vol 24 (2) ◽

pp. 201-206 ◽

Cited By ~ 11

Author(s):

C. F. Howard

Keyword(s):

Basement Membrane ◽

Membrane Thickness ◽

Basement Membrane Thickness ◽

Macaca Nigra ◽

Muscle Capillaries

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The study on the association between periodontal status and membrane thickness of maxillary sinus using cone-beam CT

10.26226/morressier.5ac383202afeeb00097a3bda ◽

2018 ◽

Author(s):

Hyoseon Park

Keyword(s):

Maxillary Sinus ◽

Cone Beam Ct ◽

Cone Beam ◽

Membrane Thickness ◽

Periodontal Status

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Highly proton conductive membranes based on carboxylated cellulose nanofibres and their performance in proton exchange membrane fuel cells

10.26434/chemrxiv.7851461.v3 ◽

2019 ◽

Author(s):

Valentina Guccini ◽

Annika Carlson ◽

Shun Yu ◽

Göran Lindbergh ◽

Rakel Wreland Lindström ◽

...

Keyword(s):

Fuel Cells ◽

Fuel Cell ◽

Surface Charge ◽

Proton Exchange Membrane ◽

Membrane Surface ◽

Proton Exchange ◽

Membrane Thickness ◽

Fuel Cell Performance ◽

Cellulose Nanofibres ◽

Exchange Membrane

The performance of thin carboxylated cellulose nanofiber-based (CNF) membranes as proton exchange membranes in fuel cells has been measured in-situ as a function of CNF surface charge density (600 and 1550 µmol g-1), counterion (H+or Na+), membrane thickness and fuel cell relative humidity (RH 55 to 95 %). The structural evolution of the membranes as a function of RH as measured by Small Angle X-ray scattering shows that water channels are formed only above 75 % RH. The amount of absorbed water was shown to depend on the membrane surface charge and counter ions (Na+or H+). The high affinity of CNF for water and the high aspect ratio of the nanofibers, together with a well-defined and homogenous membrane structure, ensures a proton conductivity exceeding 1 mS cm-1at 30 °C between 65 and 95 % RH. This is two orders of magnitude larger than previously reported values for cellulose materials and only one order of magnitude lower than Nafion 212. Moreover, the CNF membranes are characterized by a lower hydrogen crossover than Nafion, despite being ≈ 30 % thinner. Thanks to their environmental compatibility and promising fuel cell performance the CNF membranes should be considered for new generation proton exchange membrane fuel cells.

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Faculty Opinions recommendation of Potentiometric sensors based on the inductive effect on the pK(a) of poly(aniline): a nonenzymatic glucose sensor.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1000062.2101 ◽

2001 ◽

Author(s):

Anthony Czarnik

Keyword(s):

Glucose Sensor ◽

Inductive Effect ◽

Potentiometric Sensors ◽

Nonenzymatic Glucose Sensor ◽

Poly Aniline

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Design of Potentiometric Sensors Based on Interaction of Cyclodextrins with the Enantiomer of Interest

Current Drug Therapy ◽

10.2174/1574885510999150505171712 ◽

2015 ◽

Vol 9 (4) ◽

pp. 250-255

Author(s):

Raluca-Ioana Staden ◽

Rahel Bokretsion ◽

Jacobus van Staden ◽

Hassan Aboul-Enein

Keyword(s):

Potentiometric Sensors

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Unbiased Selectivity Coefficients of Potentiometric Sensors Using Thin Membrane Layers

Electroanalysis ◽

10.1002/elan.202060605 ◽

2021 ◽

Author(s):

Elena Zdrachek ◽

Eric Bakker

Keyword(s):

Potentiometric Sensors ◽

Thin Membrane ◽

Selectivity Coefficients

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The Influence of Concentration and Temperature on the Membrane Resistance of Ion Exchange Membranes and the Levelised Cost of Hydrogen from Reverse Electrodialysis with Ammonium Bicarbonate

Membranes ◽

10.3390/membranes11020135 ◽

2021 ◽

Vol 11 (2) ◽

pp. 135

Author(s):

Yash Dharmendra Raka ◽

Robert Bock ◽

Håvard Karoliussen ◽

Øivind Wilhelmsen ◽

Odne Stokke Burheim

Keyword(s):

Ion Exchange ◽

Waste Heat ◽

Ammonium Bicarbonate ◽

Operating Efficiency ◽

Membrane Thickness ◽

Ion Exchange Membranes ◽

Reverse Electrodialysis ◽

Ohmic Resistance ◽

Production Of Hydrogen ◽

The Impact

The ohmic resistances of the anion and cation ion-exchange membranes (IEMs) that constitute a reverse electrodialysis system (RED) are of crucial importance for its performance. In this work, we study the influence of concentration (0.1 M, 0.5 M, 1 M and 2 M) of ammonium bicarbonate solutions on the ohmic resistances of ten commercial IEMs. We also studied the ohmic resistance at elevated temperature 313 K. Measurements have been performed with a direct two-electrode electrochemical impedance spectroscopy (EIS) method. As the ohmic resistance of the IEMs depends linearly on the membrane thickness, we measured the impedance for three different layered thicknesses, and the results were normalised. To gauge the role of the membrane resistances in the use of RED for production of hydrogen by use of waste heat, we used a thermodynamic and an economic model to study the impact of the ohmic resistance of the IEMs on hydrogen production rate, waste heat required, thermochemical conversion efficiency and the levelised cost of hydrogen. The highest performance was achieved with a stack made of FAS30 and CSO Type IEMs, producing hydrogen at 8.48× 10−7 kg mmem−2s−1 with a waste heat requirement of 344 kWh kg−1 hydrogen. This yielded an operating efficiency of 9.7% and a levelised cost of 7.80 € kgH2−1.

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