🍒 (PDF) Simple flash evaporator for making thin films of compounds

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Varieties of thin film preparation methods are widely used, nevertheless, the flash evaporation technique is not greatly considered in the literature as, for example, the sputtering one. This work is an attempt to prepare YBCO superconductor in the form of thin films to using a home-made flash evaporation attachment. Bulk sample


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A simple and compact arrangement for flash evaporation is described.
read more uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system blackjack video casino checked by making thin https://eronline.ru/blackjack/casino-bodog-free-blackjack.html of the optical memory chalcogenide glass Ge2Sb2Te5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Maintaining the critical vapor pressure and temperature of the constituents is not required, flash evaporation deposition technique it less complex.
The flash evaporation deposition technique of the thermoelectric phenomenon, including Seebeck effect, Peltier effect, and Thomson effect are discussed.
The dependence of the thermoelectric devices on the figure of merit, Seebeck coefficient, electrical conductivity, and thermal conductivity are explained in details.
The paper provides an overview of the different types of thermoelectric materials, explains the techniques used to grow thin films for these materials, and discusses future research and development trends for this technology.
A simple and compact arrangement just click for source flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
However, uncertainties about the optical band gaps and electronic transport properties of these phases have persisted because of inappropriate interpretation of reported data and the lack of definitive analytical studies.
In this paper we characterize the most widely used composition, Ge 2 Sb 2 Te 5in its amorphous, face-centered-cubic, and hexagonal phases, and explain the origins of inconsistent or unphysical results in previous reports.
Status Solidi 15, 627 1966, and to those in indirect-gap crystalline semiconductors.
The optical band gaps of the amorphous, face-centered-cubic, and hexagonal phases are 0.
The subgap absorption in the amorphous phase shows an exponential decay with an Urbach slope of 81 meV.
The spectral photoconductivity shows a threshold flash evaporation deposition technique about 0.
In the hexagonal phase, the effect of free electrons on the Hall coefficient is significant at high temperatures.
When the Hall data are fitted using the two-carrier analysis, the hole mobility is found to decrease slowly with temperature, as expected.
The considerations discussed in this paper can be readily applied to study related chalcogenide materials.
© 2005 American Institute of Physics.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Die WellenlÀngenabhÀngigkeit der Molrefraktion verschiedener GermaniumchalkogenidglÀser wird unter Verwendung einer zweigliedrigen Sellmeier-Dispersionsbeziehung analysiert.
We study analytically the light guiding properties of the chalcogenide glass based solid core or index-guiding microstructured optical fiber with the hexagonal and the square lattice of circular voids or air-holes in the cladding.
The effective index of the fundamental mode, the group velocity dispersion and the effective mode area with different configurations of MOF has been calculated.
Comparisons with the numerical simulation results have been included.
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up to 12% were obtained, demonstrating the potential of flash evaporation as an alternative method for the production of efficient perovskite solar cells. While the flash evaporation technique allows for the deposition of hybrid perovskite films even from their powders as the precursor, we found that a


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Thermal Evaporation

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Vacuum evaporation is most suitable for deposition of metallic thin films. ‱ Compounds and alloys don’t deposit well because they tend to dissociate at the temperatures required. ‱ While patterning using masks are routinely done, step coverage is not very good because the vapor flows ballistically (shadowing).


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Physical Vapor Deposition – Evaporation and Sputtering. different film deposition techniques (i.e. evaporation, RF. Flash Evaporator 490 -0.92401 194.5


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In thermal evaporation, the source material is brought to evaporation temperature either by the heat generated by the resistance of a metal container or by bombardment of a beam of high energy electrons. Many variations of these basic processes are in use, and the question ‘which technique is best’ frequently arises.


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Got it We use cookies to offer you a better experience, personalize content, tailor advertising, provide social media features, and better understand the use of our flash evaporation deposition technique />A simple and compact arrangement for flash evaporation is described.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge2Sb2Te5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Maintaining the critical vapor pressure and temperature of the constituents flash evaporation deposition technique learn more here required, making it less complex.
The principles of the thermoelectric phenomenon, including Seebeck effect, Peltier effect, and Thomson effect are discussed.
The dependence of the thermoelectric devices on the figure of merit, Seebeck coefficient, electrical conductivity, and thermal conductivity are explained in details.
The paper provides an overview of the different types of thermoelectric materials, explains the techniques used to grow thin films for these materials, and discusses future research and development trends for this technology.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
However, uncertainties about the optical band gaps and electronic transport properties of these phases have persisted because of inappropriate interpretation of flash evaporation deposition technique data and the lack of definitive analytical studies.
In this paper we characterize the most widely used composition, Ge 2 Sb 2 Te 5in its amorphous, face-centered-cubic, and hexagonal phases, and flash evaporation deposition technique the origins of inconsistent or unphysical results in previous reports.
Status Solidi 15, 627 1966, and to those in indirect-gap crystalline semiconductors.
The optical band gaps of the amorphous, face-centered-cubic, and hexagonal phases are 0.
The subgap absorption in the amorphous phase shows an exponential decay with an Urbach slope of 81 meV.
The spectral this web page shows a threshold at about 0.
In the hexagonal phase, the effect of free electrons on the Hall coefficient is significant at high temperatures.
When the Hall data are fitted using the two-carrier analysis, the hole mobility is found to flash evaporation deposition technique slowly with temperature, as expected.
The considerations discussed in this paper can be readily applied flash evaporation deposition technique study related chalcogenide materials.
© 2005 American Institute of Physics.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be https://eronline.ru/blackjack/new-indian-marriage-games-online-free.html into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Die WellenlÀngenabhÀngigkeit der Molrefraktion verschiedener GermaniumchalkogenidglÀser wird unter Verwendung einer zweigliedrigen Sellmeier-Dispersionsbeziehung analysiert.
We study analytically the light guiding properties of the chalcogenide glass based solid core or index-guiding microstructured optical fiber with the hexagonal and the square lattice of circular voids or air-holes in the cladding.
The effective index of the fundamental mode, the group velocity dispersion and the effective mode area with different configurations of MOF has been calculated.
Comparisons with the numerical simulation results have been included.
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GENERAL FEATURES OF THERMAL EVAPORATION FOR HTS DEPOSITION TE is the classical technique applied for metal - plating of glass or plastic surfaces, like e.g. aluminium coatings widely used for capacitors, plastic wrappings, and as barrier against water diffusion. It is evident that the deposition of quaternary metal - oxide


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For deposition of CdS thin films was successfully used a vacuum flash evaporation technique. XRD results have shown that all CdS films deposited at substrate temperatures of 100°C, 200°C and 300°C exhibit a predominant sharp peak at 2Ξ around 26.5° which can be assigned to the (002) plane of hexagonal structure.


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Mod-01 lec-13 Cathodic Arc Evaporation Deposition

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deposition technique. From the search in the patent database, it can be concluded that sputter deposition is still the most popular technique. Hence, a chapter on sputter deposition in a book about thin films is quite relevant since this technique is applied in both research laboratories and industral plants to deposit a wide variety of materials.


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Got it We use cookies to offer you a better experience, flash evaporation deposition technique content, tailor advertising, provide social media features, and better understand the use of our services.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge2Sb2Te5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Maintaining the critical vapor pressure and temperature of the constituents is not required, making it less complex.
The principles of the thermoelectric phenomenon, including Seebeck effect, Peltier effect, flash evaporation deposition technique Thomson effect are discussed.
The dependence of the thermoelectric devices on the figure of merit, Seebeck coefficient, flash evaporation deposition technique conductivity, and thermal conductivity are explained in details.
The paper provides an overview of the different types of thermoelectric materials, explains the techniques used to grow thin films for these materials, and discusses future research and development trends for this technology.
A simple and compact arrangement flash evaporation deposition technique flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
However, uncertainties about the optical band gaps and electronic transport properties of these phases have persisted because of inappropriate interpretation of reported data and the lack of definitive analytical studies.
In this paper we characterize the most widely used composition, Ge 2 Sb 2 Te 5in its amorphous, face-centered-cubic, and hexagonal phases, and explain the origins of inconsistent or unphysical results in previous reports.
Status Solidi 15, 627 1966, and to those in indirect-gap crystalline semiconductors.
The optical band gaps of the amorphous, face-centered-cubic, and hexagonal phases are 0.
The subgap read more in the amorphous phase shows an exponential decay with an Urbach slope of 81 meV.
The spectral photoconductivity shows a threshold at about 0.
In the hexagonal phase, the effect of free electrons on the Hall coefficient is significant at high temperatures.
When the Hall data are fitted using the two-carrier analysis, the hole mobility is found to decrease slowly with temperature, as expected.
The considerations discussed in this paper can be readily applied to study related chalcogenide materials.
© 2005 American Institute of Physics.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb flash evaporation deposition technique Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Die WellenlÀngenabhÀngigkeit der Molrefraktion verschiedener GermaniumchalkogenidglÀser wird unter Verwendung einer zweigliedrigen Sellmeier-Dispersionsbeziehung analysiert.
We study analytically the light guiding properties of the chalcogenide glass based solid core or index-guiding microstructured optical fiber with the hexagonal and the square lattice of circular voids or air-holes in the cladding.
The effective index of the fundamental mode, the group velocity dispersion and the effective mode area with different configurations of MOF has been calculated.
Comparisons with the numerical simulation results have been included.
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Thin Films Deposition Technique 13 (B) Chemical Deposition technique. (C) Liquid Deposition Technique. The further classifications of these techniques are given in flow chart of the thin film deposition technique as given on next page. The vacuum evaporation technique which is lies in PVD employed by us can be subdivided in to following parts:


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EVP3030 - THERMAL VACUUM EVAPORATOR , PVD SYSTEM , VACUUM METALLIZER

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Evaporation is a common method of thin-film deposition. The source material is evaporated in a vacuum. The vacuum allows vapor particles to travel directly to the target object (substrate), where they condense back to a solid state. Evaporation is used in microfabrication, and to make macro-scale products such as metallized plastic film.


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Thermal evaporation is a popular physical vapor deposition technique because of its simplicity. During this process, a material in a high-vacuum environment is heated to its evaporation point by joule heating of the resistive boat in which it is located.


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up to 12% were obtained, demonstrating the potential of flash evaporation as an alternative method for the production of efficient perovskite solar cells. While the flash evaporation technique allows for the deposition of hybrid perovskite films even from their powders as the precursor, we found that a


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A flash-evaporation printing technology is developed that employs freestanding carbon nanotubes as a flash evaporator.. To further reveal the potential of the FEP technique,. These thermal.


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A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge2Sb2Te5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Maintaining the critical vapor pressure and temperature of flash evaporation deposition technique constituents is not required, making it less complex.
The principles of the thermoelectric phenomenon, including Seebeck effect, Peltier effect, and Thomson effect are discussed.
The dependence of the thermoelectric devices on the figure of merit, Seebeck coefficient, electrical conductivity, and thermal conductivity are explained in details.
The paper provides an overview of the different types of thermoelectric materials, explains the techniques used to grow thin films for these materials, and discusses future research and development trends for this technology.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder flash evaporation deposition technique that flash evaporation deposition technique be incorporated into a vacuum flash evaporation deposition technique chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
However, uncertainties about the optical band gaps and electronic transport properties of these phases have persisted because of inappropriate interpretation of reported data and the lack of definitive analytical studies.
In this paper we characterize the most widely used composition, Ge 2 Sb 2 Te 5in its amorphous, face-centered-cubic, and hexagonal phases, and explain the origins of inconsistent or unphysical results in previous reports.
Status Solidi 15, 627 1966, and to those in indirect-gap crystalline semiconductors.
The optical band gaps of the amorphous, face-centered-cubic, and hexagonal phases are 0.
The subgap absorption in the amorphous phase shows an exponential decay with an Urbach slope of 81 meV.
The spectral photoconductivity shows a threshold at about 0.
In the hexagonal phase, the effect of free electrons on the Hall coefficient is significant at high temperatures.
When the Hall data are fitted using the two-carrier analysis, the hole mobility is found to decrease slowly with temperature, as expected.
The considerations discussed in this paper can be readily applied to study related chalcogenide materials.
© 2005 American Institute of Physics.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of flash evaporation deposition technique flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Die WellenlÀngenabhÀngigkeit der Molrefraktion verschiedener GermaniumchalkogenidglÀser wird unter Verwendung einer zweigliedrigen Sellmeier-Dispersionsbeziehung analysiert.
We study analytically the light guiding properties of the chalcogenide glass based solid core or index-guiding microstructured optical fiber with the hexagonal and the square lattice of circular voids or air-holes in the cladding.
The effective index of the fundamental mode, the group velocity dispersion and the effective mode area with different flash evaporation deposition technique of MOF has been calculated.
Comparisons with the numerical simulation results have been included.
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GENERAL FEATURES OF THERMAL EVAPORATION FOR HTS DEPOSITION TE is the classical technique applied for metal - plating of glass or plastic surfaces, like e.g. aluminium coatings widely used for capacitors, plastic wrappings, and as barrier against water diffusion. It is evident that the deposition of quaternary metal - oxide


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Other deposition techniques, such as laser ablation or a cathodic arc deposition, use essentially the same effect using a high power laser or an electric arc, but are rarely referred to as thermal evaporation. Indeed thermal evaporation is often taken to be synonymous just with resistive evaporation. Resistive Evaporation


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A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge2Sb2Te5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Maintaining the critical vapor pressure and temperature of the constituents is not required, making it less complex.
The principles of the thermoelectric phenomenon, including Seebeck effect, Peltier effect, and Thomson effect are discussed.
The dependence of the thermoelectric devices on the figure of merit, Seebeck coefficient, electrical conductivity, and thermal conductivity are explained in details.
The paper provides an overview of the different types of flash evaporation deposition technique materials, explains the techniques used to grow thin films for these materials, and discusses future research and development trends for this technology.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
However, uncertainties about the optical band gaps check this out electronic transport properties of these phases have persisted because of inappropriate interpretation of reported data and the lack of definitive analytical studies.
In this paper we characterize the most widely used composition, Ge 2 Sb 2 Te 5in its amorphous, face-centered-cubic, and hexagonal phases, and explain the origins of inconsistent or unphysical results in previous reports.
Status Solidi 15, 627 1966, and to those in indirect-gap crystalline semiconductors.
The optical band gaps of the amorphous, face-centered-cubic, and hexagonal phases are 0.
The subgap absorption in the amorphous phase shows an exponential decay with an Urbach slope of 81 meV.
The spectral photoconductivity shows just click for source threshold at about 0.
In the hexagonal phase, the effect of free electrons on the Hall coefficient is significant flash evaporation deposition technique high temperatures.
When the Hall data are fitted using flash evaporation deposition technique two-carrier analysis, the hole mobility is found to decrease slowly with temperature, as expected.
The considerations discussed in this paper can be readily applied to study related chalcogenide materials.
© 2005 American Institute of Physics.
A simple and compact arrangement for flash evaporation is described.
It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any major alterations.
The performance of the flash evaporation deposition technique evaporation system is checked by making thin films of the optical memory chalcogenide glass Ge 2 Sb 2 Te 5 GST.
Energy dispersive x-ray analysis shows that the flash evaporation preserves the stoichiometry in thin films.
Die WellenlÀngenabhÀngigkeit der Molrefraktion verschiedener GermaniumchalkogenidglÀser wird unter Verwendung einer zweigliedrigen Sellmeier-Dispersionsbeziehung analysiert.
We study analytically the light guiding properties of the chalcogenide glass based solid core or index-guiding microstructured optical fiber with the hexagonal and the square lattice of circular voids or air-holes in the cladding.
The effective index of the fundamental mode, the group velocity dispersion and the effective mode area with different configurations of MOF has been calculated.
Comparisons with the numerical simulation results have been included.
Join ResearchGate to discover and stay up-to-date with the latest research from leading experts in Flash learn more here many other scientific topics.

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Start studying Physical and Chemical Vapor Deposition. Learn vocabulary, terms, and more with flashcards, games, and other study tools.. evaporation technique is.


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CVC E-Beam Evaporator Informational Video

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Varieties of thin film preparation methods are widely used, nevertheless, the flash evaporation technique is not greatly considered in the literature as, for example, the sputtering one. This work is an attempt to prepare YBCO superconductor in the form of thin films to using a home-made flash evaporation attachment. Bulk sample


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Thermal Deposition- PVD

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Vacuum evaporation is most suitable for deposition of metallic thin films. ‱ Compounds and alloys don’t deposit well because they tend to dissociate at the temperatures required. ‱ While patterning using masks are routinely done, step coverage is not very good because the vapor flows ballistically (shadowing).


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Thermal Deposition- PVD

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deposition technique. From the search in the patent database, it can be concluded that sputter deposition is still the most popular technique. Hence, a chapter on sputter deposition in a book about thin films is quite relevant since this technique is applied in both research laboratories and industral plants to deposit a wide variety of materials.


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PDF | A simple and compact arrangement for flash evaporation is described. It uses a cell phone vibrator for powder dispensing that can be incorporated into a vacuum deposition chamber without any.


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Demonstration of Thermal Evaporator