Results 1 to 10 of about 10,194 (274)
Bipolar Electrochemistry – A Powerful Tool for Micro/Nano‐Electrochemistry [PDF]
ChemistryOpen, 2022 The understanding of areas for “classical” electrochemistry (including catalysis, electrolysis and sensing) and bio‐electrochemistry at the micro/nanoscale are focus on the continued performance facilitations or the exploration of new features.
Dr. Yu‐Ling Wang +2 more
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Wireless magneto-ionics: voltage control of magnetism by bipolar electrochemistry [PDF]
Nature Communications, 2023 Modulation of magnetic properties through voltage-driven ion motion and redox processes, i.e., magneto-ionics, is a unique approach to control magnetism with electric field for low-power memory and spintronic applications. So far, magneto-ionics has been
Zheng Ma +8 more
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Efficient Removal of Mercury from Polluted Aqueous Solutions Using the Wireless Bipolar Electrochemistry Technique [PDF]
ChemistryOpen, 2022 Mercury represents one of the major toxic pollutants in water that affect human and ecosystem. Extensive efforts have been globally invested to remove mercury using various chemical and electrochemical approaches.
Dr. Zahra Ali Fattah
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Nanoparticle Printing for Microfluidic Applications: Bipolar Electrochemistry and Localized Raman Sensing Spots [PDF]
Micromachines, 2023 The local integration of metal nanoparticle films on 3D-structured polydimethylsiloxane (PDMS)-based microfluidic devices is of high importance for applications including electronics, electrochemistry, electrocatalysis, and localized Raman sensing ...
Alessia Broccoli +5 more
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Bipolar electrochemical tweezers using pristine carbon fibers with intrinsically asymmetric features [PDF]
Nature CommunicationsStructures that can be stimulated to change shape may be utilized for a variety of applications, but they frequently need to be processed and modified.
Bhavana Gupta +6 more
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Bipolar electrochemical growth of conductive microwires for cancer spheroid integration: a step forward in conductive biological circuitry [PDF]
Scientific ReportsThe field of bioelectronics is developing exponentially. There is now a drive to interface electronics with biology for the development of new technologies to improve our understanding of electrical forces in biology.
Andie J. Robinson +4 more
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Advanced Materials Interfaces, 2023 Conducting polymers have gained considerable attention for the possible design of localized electroactive patterns for microelectronics. In this work, the authors take advantage of the properties of polypyrrole, in synergy with a wireless polarization ...
Gerardo Salinas +3 more
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Data in Brief, 2022 Data in this article is associated with our research article “Enhanced wireless cell stimulation using soft and improved bipolar electroactive conducting polymer templates” Qin et al. (2022). Primarily, the present article shows the data of PPy-PMAS/FTO,
Chunyan Qin +5 more
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Electrochemistry Communications, 2021 The application of a bipolar electrochemistry technique to simulate the galvanic corrosion behaviour of dissimilar stainless steels is introduced. The technique allows comparison of the bipolar response by controlling the extent of localised corrosion as
Yiqi Zhou +2 more
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Fast growth of highly ordered porous alumina films based on closed bipolar electrochemistry
Electrochemistry Communications, 2020 Highly ordered porous anodic alumina (PAA) is widely used as a template for preparing one-dimensional nanostructured materials. At present, research efforts to prepare PAA templates with straight channels mainly focus on improving their regularity or ...
Dawei Xu +6 more
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