Immersion Nanoimprint Lithography - 8 Angebote vergleichen
Preise | 2013 | 2014 | 2015 | 2019 |
---|---|---|---|---|
Schnitt | Fr. 35.10 (€ 35.90)¹ | Fr. 35.74 (€ 36.56)¹ | Fr. 38.57 (€ 39.46)¹ | Fr. 38.20 (€ 39.07)¹ |
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Symbolbild
Immersion Nanoimprint Lithography (2013)
DE PB NW RP
ISBN: 9783659482946 bzw. 3659482943, in Deutsch, LAP Lambert Academic Publishing Nov 2013, Taschenbuch, neu, Nachdruck.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
This item is printed on demand - Print on Demand Titel. Neuware - Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as immersion nanoimprint where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. 76 pp. Englisch.
This item is printed on demand - Print on Demand Titel. Neuware - Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as immersion nanoimprint where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. 76 pp. Englisch.
2
Symbolbild
Immersion Nanoimprint Lithography (Paperback) (2013)
DE PB NW RP
ISBN: 9783659482946 bzw. 3659482943, in Deutsch, LAP Lambert Academic Publishing, United States, Taschenbuch, neu, Nachdruck.
Von Händler/Antiquariat, The Book Depository EURO [60485773], London, United Kingdom.
Language: English Brand New Book ***** Print on Demand *****.Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as immersion nanoimprint where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding.
Language: English Brand New Book ***** Print on Demand *****.Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as immersion nanoimprint where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding.
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Immersion Nanoimprint Lithography
~EN NW AB
ISBN: 9783659482946 bzw. 3659482943, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Österreich, Lieferzeit: 5 Tage, zzgl. Versandkosten.
Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges, and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as "immersion nanoimprint" where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding.
Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges, and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as "immersion nanoimprint" where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding.
4
Immersion Nanoimprint Lithography
~EN PB NW
ISBN: 9783659482946 bzw. 3659482943, vermutlich in Englisch, LAP LAMBERT Academic Publishing, Taschenbuch, neu.
Lieferung aus: Schweiz, Versandfertig innert 4 - 7 Werktagen.
Immersion Nanoimprint Lithography, Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as ´immersion nanoimprint´ where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Taschenbuch.
Immersion Nanoimprint Lithography, Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as ´immersion nanoimprint´ where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Taschenbuch.
5
Immersion Nanoimprint Lithography
~EN PB NW
ISBN: 9783659482946 bzw. 3659482943, vermutlich in Englisch, LAP LAMBERT Academic Publishing, Taschenbuch, neu.
Lieferung aus: Österreich, zzgl. Versandkosten.
Immersion Nanoimprint Lithography Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as ´immersion nanoimprint´ where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Taschenbuch.
Immersion Nanoimprint Lithography Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges; and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as ´immersion nanoimprint´ where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Taschenbuch.
6
Immersion Nanoimprint Lithography
~EN PB NW
ISBN: 9783659482946 bzw. 3659482943, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Immersion Nanoimprint Lithography: Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as `immersion nanoimprint` where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Englisch, Taschenbuch.
Immersion Nanoimprint Lithography: Thermal nanoimprinting is used to modify a manufacturing process as simple fabrication technology that transfers a fine pattern by pressing a mold with nanoscale patterns against a thermoplastic. The molds can be categorized roughly into two types, namely, a positive mold with a convex pattern, and a negative mold with a concave pattern compared with the base level. Around each concave imprinted pattern, the compressed air that is caused by the imprint pressure, generates capillary bridges and in case of a convex imprinted pattern the trapped air remaining inside the concave mold pattern gives rise to bubble defects. In order to remove such defective molding, I propose a novel technique that I name as `immersion nanoimprint` where a fluorine liquid is inserted between the mold pattern and the molding material. In this technique, a fluorine liquid improved accuracy remarkably, and realized a complete filling at a low imprint pressure. Also, it was confirmed that the uniformity was greatly improved by improved heat transfer. Thus the immersion nanoimprint lithography is expected to be one of the epoch-making solution that can dramatically decrease the formation of defective molding. Englisch, Taschenbuch.
8
Immersion Nanoimprint Lithography
~EN PB NW
ISBN: 9783659482946 bzw. 3659482943, vermutlich in Englisch, Taschenbuch, neu.
Lieferung aus: Deutschland, Next Day, Versandkostenfrei.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
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