Energy, Power
Top 5 Control Engineering articles Oct. 5-11
Articles about using robots to reduce risk for COVID-19 in the workplace, programming variable frequency drives (VFDs), 2021 engineers choice finalists, and more were Control Engineering’s five most clicked articles from Oct. 5-11, 2020. Miss something? You can catch up here.
Using diamond as a metallic conductor
通常绝缘体,钻石变成了金属conductor when subjected to large strain in a theoretical model, which could improve solar cells, quantum sensors, optical devices and more.
Atomic dynamics help turn heat into electricity
An atomic mechanism that makes some thermoelectric materials efficient near high-temperature phase transition could help unlock better options for technologies reliant on transforming heat into electricity.
Mirror-like photovoltaics get more electricity out of heat
Heat-harnessing solar cells that reflect 99% of the energy they can’t convert to electricity could help bring down the price of storing renewable energy as heat and improve overall energy efficiency.
How nanomaterials are improving battery design
Graphene coating enables new electrode designs with potential for electric vehicles
Adhesive tape improves lithium batteries’ performance, lifespan
Rice University researchers turned adhesive tape into a silicon oxide film improve lithium metal technology and make them last longer.
Making plastic more transparent while adding electrical conductivity
University of Michigan researchers have made plastic conductive while also making it more transparent, which can improve large touchscreens, LED light panels and window-mounted infrared solar cells.
光谱法研究进展可能导致更安全rechargeable batteries
Researchers have found a way to advance safer rechargeable batteries with spectrometry. Their findings could improve batteries used for consumer electronics such as laptops and cellphones.
Nanoscale hollow structure formation could boost battery storage
Researchers at Georgia Tech, ETH Zurich and Oak Ridge National Laboratory have discovered particles can change a nanoscale hollow structure formation, which could be beneficial for lithium-ion battery storage.
Transparent graphene electrodes could lead to improved solar cells
MIT researchers have developed a roll-to-roll production method could enable lightweight, flexible solar devices and a new generation of display screens.