Apparatus and methods for calibrated work function measurements
First Claim
1. A method of making measurements reflective of the work function of a sample surface, said method comprising:
- providing a sample surface of an electrically conductive sample;
providing an electrochemical half-cell with a cell electrode in a cell electrolyte;
providing a reference surface which is the surface of a reference electrolyte and connecting said reference electrolyte to be in galvanic communication with said cell electrolyte;
providing a probe which is positionable proximate said sample surface and said reference surface, said probe having an electrically conductive portion;
providing detection means and electrically connecting said detection means to said conductive portion of said probe and to said cell electrode to form a first capacitive circuit;
providing capacitance varying means for varying the capacitance of said first capacitive circuit;
positioning said conductive portion of said probe proximate said reference surface;
operating said capacitance varying means to vary the capacitance of said first capacitive circuit thereby causing a detectable current flow, and operating said detection means to obtain a first measurement which is reflective of the contact potential difference between said reference surface and said probe;
connecting said sample to said detection means to form a second capacitive circuit;
repositioning said conductive portion of said probe proximate said simple surface;
operating said capacitance varying means to vary the capacitance of said second capacitive circuit and said detection means to obtain a second measurement which is reflective of the contact potential difference between said sample surface and said probe; and
deriving a value reflective of the work function of said sample surface from said reference measurement, a known value of the half-cell potential of said half-cell, and said sample measurement.
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Accused Products
Abstract
A method of making a calibrated measurement of the contact potential difference between a probe electrode and the surface of a sample surface involves the use of a reference standard. The reference standard comprises an electrolyte solution in electrical contact with an electrochemical half-cell; the surface of the electrolyte constitutes the reference surface whose CPD can be measured. The method is intended for use with apparatuses such as a vibrating capacitor or Kelvin probe, and allows the absolute work function of a sample surface to be determined from measurements obtained in a gas atmosphere. An apparatus incorporating the reference standard, and an improved vibrating capacitor probe, are also disclosed.
52 Citations
37 Claims
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1. A method of making measurements reflective of the work function of a sample surface, said method comprising:
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providing a sample surface of an electrically conductive sample; providing an electrochemical half-cell with a cell electrode in a cell electrolyte; providing a reference surface which is the surface of a reference electrolyte and connecting said reference electrolyte to be in galvanic communication with said cell electrolyte; providing a probe which is positionable proximate said sample surface and said reference surface, said probe having an electrically conductive portion; providing detection means and electrically connecting said detection means to said conductive portion of said probe and to said cell electrode to form a first capacitive circuit; providing capacitance varying means for varying the capacitance of said first capacitive circuit; positioning said conductive portion of said probe proximate said reference surface; operating said capacitance varying means to vary the capacitance of said first capacitive circuit thereby causing a detectable current flow, and operating said detection means to obtain a first measurement which is reflective of the contact potential difference between said reference surface and said probe; connecting said sample to said detection means to form a second capacitive circuit; repositioning said conductive portion of said probe proximate said simple surface; operating said capacitance varying means to vary the capacitance of said second capacitive circuit and said detection means to obtain a second measurement which is reflective of the contact potential difference between said sample surface and said probe; and deriving a value reflective of the work function of said sample surface from said reference measurement, a known value of the half-cell potential of said half-cell, and said sample measurement. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 37)
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13. A method of making a calibrated measurement of the contact potential difference between the surface of a sample of an electrically conductive material and a probe in a gas environment, said method comprising the steps of:
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providing apparatus having a probe for placement proximate but not in contact with the surface of a conductive sample, said probe having a conductive portion with vibration means connected thereto to vibrate said conductive portion, detection means connected to the conductive portion of said probe electrode and operable to determine the contact potential difference between the conductive portion of said probe and the sample surface, and a reference standard comprising an electrochemical half-cell including a cell electrolyte which is in galvanic communication with a reference electrolyte having a reference surface; placing the conductive portion of said probe in proximity to the said reference surface; electrically connecting the half-cell electrode to the detection means to complete a capacitive circuit with the probe; operating the detection means to determine the contact potential difference between the conductive portion of said probe and the reference surface to produce a calibration measurement; placing the conductive portion of said probe in proximity to the surface of the conductive sample; disconnecting the half-cell electrode from the detection means and electrically connecting said conductive sample to the detection means to complete the external circuit with the probe; measuring the contact potential difference between the conductive portion of said probe and the surface of the conductive sample to produce a test measurement; and calculating a test value from a comparison of said test measurement and said calibration measurement.
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14. Apparatus for measuring a property of a surface of a conductive material, said apparatus comprising:
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a reference standard having an electrochemical half-cell with a cell electrode conductively associated with a cell electrolyte, and having a reference electrolyte in galvanic communication with said cell electrolyte, said reference electrolyte having a reference surface; a probe having a conductive portion for positioning in a first position proximate the surface of a sample conductive material to form a first capacitor and for positioning in a second position proximate the reference surface to form a second capacitor; capacitance varying means operably associated with said probe for varying the capacitance of said first or second capacitors; detection means connected to said conductive portion of said probe, to said cell electrode and to said surface of said sample conductive material, said detection means being operable to obtain a first measurement which is reflective of the half-cell potential of said half-cell and to obtain a second measurement which is reflective of the contact potential difference between said sample surface and said conductive portion of said probe in said first position, said contact potential difference constituting a property of said surface. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A probe useful for measuring the contact potential difference between the probe and a sample with the vibrating capacitor technique, comprising:
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a probe body having a first end and a second end; a flexible conductive film disposed to cover said first end of said body; acoustic vibration means operably associated with said second end of said body to generate acoustic energy and to supply it through said second end to said flexible conductive film for causing said flexible conductive film to vibrate; electrical connection means associated with said flexible conductive film for connecting said flexible conductive film to an external detection circuit. - View Dependent Claims (30)
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31. Apparatus for measuring the contact potential difference between a probe and a surface, comprising:
- a probe having a conductive portion for positioning
proximate the surface of a sample conductive material to form a test capacitor, wherein said conductive portion of said probe and said surface constitute a pair of capacitor plates; capacitance varying means operably disposed for varying the capacitance of said capacitor to cause a detectable current flow between said capacitor plates; an external circuit connected to said capacitor plates to complete a capacitance circuit and operable to hold one of said plates at a fixed potential relative to the other said plate; detection means associated with said external circuit and operable to; detect said current; apply a voltage to nullify said current, and read the applied voltage to generate a sample measurement reflective of the contact potential difference between said surface and said probe; and a reference standard connectable to said external circuit and having a reference surface adjacent which said probe is placeable to form a reference capacitor circuit, said reference standard comprising an electrochemical half-cell in electrical contact with an electrolyte solution, said solution having a surface which constitutes said reference surface, and said half-cell including a half-cell electrode connectable to said external circuit; wherein when said half-cell electrode is connected to said external circuit and said probe is positioned adjacent said reference surface, said capacitance varying means is further operable to vary the capacitance of said reference capacitor to cause a reference current to flow, and said detection means is further operable to; detect said reference current, apply a voltage to nullify said current, and read the applied voltage to produce a reference measurement reflective of the half-cell potential of said half-cell, and to receive and compare said sample measurement and said reference measurement to generate a display signal reflective of the work function between said probe and said surface. - View Dependent Claims (36)
- a probe having a conductive portion for positioning
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32. Apparatus for making a calibrated measurement of the contact potential difference between a probe and a surface, comprising:
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a probe having a conductive portion for positioning proximate test surface of a sample conductive material to form a test capacitor, wherein said conductive portion of said probe and said surface constitute first and second capacitor plates; an external circuit including a source of electrical power connectable to said first and second capacitor plates to complete a capacitance circuit, and operable to hold one of said first and second capacitor plates at a fixed potential relative to the other of said first and second capacitor plates; calibration means for calibrating a sample measurement, comprising an electrochemical half-cell in galvanic contact with an elecrtrolyte solution, said electrochemical half-cell being selected from the group of half-cells having known absolute half-cell potentials, said solution having a calibration surface adjacent which said probe is positionable to form a calibrating capacitor, and said electrochemical half-cell including a half-cell electrode connectable to said external circuit; capacitance varying means operably disposed for varying the capacitance of said test capacitor or said calibration capacitor to cause a detectable current flow between said first and second capacitor plates; detection means associated with said external circuit for detecting said circuit, and operable to; operate said external circuit to apply a first voltage to nullify said current when said test capacitor is formed, read said first voltage to generate a sample measurement reflective of the contact potential difference between said sample surface and said probe, detect a calibration current flowing in said external circuit when said calibration capacitor is formed, apply a second voltage to nullify said calibration current, and read said second voltage to generate a calibration measurement reflective of said half-cell potential. - View Dependent Claims (33, 34, 35)
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Specification