关于
Arvind的文章
动态
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We're looking to add SDRs to our Tampa team at Loop AI. We have a phenomenal team, a great product, and a culture we've worked hard to build. If…
We're looking to add SDRs to our Tampa team at Loop AI. We have a phenomenal team, a great product, and a culture we've worked hard to build. If…
Arvind Krishnaswamy点赞
工作经历和教育背景
志愿者经历
出版作品
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New Techniques to Control Glaucoma using Nanomaterial based Biodegradable Implants, John Yin, Mark Schulz, Arvind Krishnaswamy, Sarah Pixley, Elizabeth Debenedictis, Nate Hertlein, Vesselin Shanov, George Sorial
White Paper
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Substrate Engineering for Nanotube Growth Control
UC Invention Disclosure 112-066,
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vdW Capacitor Design and Manufacturing
UC Invention Disclosure 112-067
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[Best Paper Award] Force Measurement and Feedback Control of Pulsed Field Emission from Carbon Nanotube based Emitters for Electron Space Thruster Applications
Space Transportation Symposium (STS2011)
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Electromechanical fatigue in IPMC under dynamic energy harvesting conditions
Proc. of SPIE Smart Structures/NDE Conference, San Diego, California, USA
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A Carbon-Nanotube based Field Emission Cold Cathode for Electric Propulsion Systems
National Conference on Electric Propulsion Systems, Bangalore, India
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Hydrodynamic energy harvesting using an Ionic Polymer-Metal Composite stack for underwater applications
ASME 2010 International Congress and Exposition- Vancouver, British Columbia, Canada
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Energy harvesting using ionic electro-active polymer thin films with Ag-based electrodes
Smart Materials and Structures
专利发明
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Cold field emission cathodes using carbon nanotubes
颁发日期: US 9171688
A highly flexible, low power, polymer based nano-composite for cold-cathode field emission cathode was developed using a novel nano-composite material for electron field emission applications in next-generation flexible display technology and development of digital thrusters.
其他发明人 -
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Energy Harvesting Devices Using Carbon Nanotube (CNT)-Based Electrodes
颁发日期: US 9013092
Traditionally, electrical power has been generated in large, centralized plants powered by fossil fuels, nuclear fission or flowing water, for example. Input fuel to such large scale power generation requires oil or coal, for example, which may not be readily available in all areas of the world.
Energy harvesting or energy scavenging from existing environmental sources has become an interest due to dwindling natural resources around the world. Energy harvesting is a process by which…Traditionally, electrical power has been generated in large, centralized plants powered by fossil fuels, nuclear fission or flowing water, for example. Input fuel to such large scale power generation requires oil or coal, for example, which may not be readily available in all areas of the world.
Energy harvesting or energy scavenging from existing environmental sources has become an interest due to dwindling natural resources around the world. Energy harvesting is a process by which energy is derived from external sources (e.g., solar power, thermal energy, wind energy, salinity gradients, and kinetic energy), captured, and/or stored. In contrast to traditional electrical power plants, fuel for energy harvesters is naturally present. Thus, large-scale ambient energy, such as sun, wind, and tides is widely available; however, such energy may not be effectively captured with much efficiency or at low costs.
Even though some types of energy harvesters fueled by ambient energy may not produce sufficient energy to perform mechanical work, small amounts of power can be generated. Harnessing ambient mechanical vibrations to produce sustainable power sources may have several applications in aerospace and outer space, for example, where ambient mechanical vibrations are plentiful. Still further, energy harvesting may be useful when applied to small, wireless autonomous devices, such as those used in wearable electronics and wireless sensor networks.其他发明人 -
荣誉奖项
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Outstanding Research Award in Nanoscience & Engineering
Nanoworld Laboratories
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Chair
Workshop on “Teaching Life 2.0 – From Practice to Profession”
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Judge (Engineering Category)
Eighth Annual Southwest Ohio District Science & Engineering Expo (SEE)
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National Science Foundation Graduate Scholarship
National Science Foundation
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University Grant Scholarship
University of Cincinnati
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Innovation Award
Intellectual Ventures (IV Asia)
Innovation award for the invention - "Cold Field Emission Cathodes Using Carbon Nanotubes"
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Innovation award
Intellectual Ventures (IV Asia)
Innovation award for the invention - "Energy Harvesting Devices Using Carbon Nanotube (CNT)-Based Electrodes"
语言能力
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English
母语或精通双语
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Hindi
母语或精通双语
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Kannada
母语或精通双语
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Tamil
母语或精通双语
参与组织
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Super Small Sciences Society
Co-Founder and Vice President
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Graduate Association for Teaching Enhancement
Vice-President, Executive Board Member
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BMS nano-i
Founding Member
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Arvind的更多动态
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Most AI pilots die because they’re treated like experiments, not engines. You have the ChatGPT seats and an "AI-ready" CRM. Yet, your sales cycle…
Most AI pilots die because they’re treated like experiments, not engines. You have the ChatGPT seats and an "AI-ready" CRM. Yet, your sales cycle…
Arvind Krishnaswamy点赞