2017
DOI: 10.1002/adfm.201702993
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High‐Precision Temperature‐Controllable Metal‐Coated Polymeric Molds for Programmable, Hierarchical Patterning

Abstract: Nanofabrication is an indispensable process in nanoscience and nanotechnology. Unconventional lithographic techniques are often used for fabrication as alternatives to photolithography because they are faster, more cost-effective, and simpler to use. However, these techniques are limited in scalability and utility because of the collapse of preprinted structures during step-and-repeat processes. This study proposes a new class of temperaturecontrollable polymeric molds that are coated with a metal such that an… Show more

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Cited by 7 publications
(2 citation statements)
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“…Electric heaters based on the conversion of electrical current into heat energy have been widely used for over a century in numerous personal and industrial applications, such as local heating, automotive defrosting, , soft actuators, drug release, and micropatterning . Recently, to respond to the demands of newly emerging heater applications, in particular, wearable/on-body electronic devices for healthcare sensing and monitoring, future heater materials require characteristics such as transparency, mechanical reliability under deformation, and facile adaptability on topologically structured surfaces. , Although conventional metals are efficient and commercially available and have a high electrical conductivity (∼10 7 S/m), their large weight (>7 g/cm 3 ), optical opaqueness, mechanical stiffness, and surface oxidation limit their applications …”
mentioning
confidence: 99%
“…Electric heaters based on the conversion of electrical current into heat energy have been widely used for over a century in numerous personal and industrial applications, such as local heating, automotive defrosting, , soft actuators, drug release, and micropatterning . Recently, to respond to the demands of newly emerging heater applications, in particular, wearable/on-body electronic devices for healthcare sensing and monitoring, future heater materials require characteristics such as transparency, mechanical reliability under deformation, and facile adaptability on topologically structured surfaces. , Although conventional metals are efficient and commercially available and have a high electrical conductivity (∼10 7 S/m), their large weight (>7 g/cm 3 ), optical opaqueness, mechanical stiffness, and surface oxidation limit their applications …”
mentioning
confidence: 99%
“…Electrical heaters based on the Joule heating effect have been widely used in our daily lives, such as local heating, automotive defogging and defrosting, healthcare thermotherapy, , personal thermal management, drug release, and micropatterning . Recently, to respond to the requirements of newly emerging heater applications, flexible electrical heaters with fascinating attributes such as portability, low driving voltage, satisfying heating temperature, rapid response, outstanding heating reliability and durability, and excellent mechanical properties are urgently demanded. , Therefore, it is necessary to propose an effective strategy to obtain high-performance heaters while maintaining their superb flexibility, conductivity, and mechanical properties by reasonably designing their structure.…”
Section: Introductionmentioning
confidence: 99%