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Electrostatic Heteroaggregation: Fundamentals and Applications in Interfacial Engineering
Langmuir, 2023The aggregation of oppositely charged soft materials (particles, surfactants, polyelectrolytes, etc.) that differ in one or more physical or chemical attributes, broadly referred to as electrostatic heteroaggregation, has been an active area of research for several decades now.
Nithin Madhavan +3 more
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Interfacial Engineering by Proteins: Exfoliation and Functionalization of Graphene by Hydrophobins
Angewandte Chemie International Edition, 2010Functionalities from nature may be used to meet the demands of contemporary materials science in terms of the efficient and safe production of high-quality, versatile materials. Thus, the spontaneous absorption on graphite of small amphiphilic proteins known as hydrophobins from an aqueous phase, followed by sonication, led to the exfoliation and ...
Kainlauri, Markku +7 more
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Janus Nanoparticles by Interfacial Engineering
Advanced Functional Materials, 2007AbstractNanosized Janus particles were prepared by ligand exchange reactions of a Langmuir monolayer of hydrophobic alkanethiolate‐passivated gold nanoparticles at relatively high surface pressures with hydrophilic thiol derivatives injected into the water subphase. The ligand intercalation between adjacent particles led to impeded interfacial mobility
S. Pradhan, L. Xu, S. Chen
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Interfacial engineering—a perspective
Materials Science and Engineering: A, 1993Abstract Interfacial engineering expresses a particular attitude and methodology in which materials are designed with preplanned properties through the imaginative exploitation of a fundamental knowledge of the structure, chemistry and kinetics of internal interfaces and free surfaces.
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Surface and Interfacial Engineering for Multifunctional Nanocarbon Materials
ACS NanoMultifunctional materials are accelerating the development of soft electronics with integrated capabilities including wearable physical sensing, efficient thermal management, and high-performance electromagnetic interference shielding. With outstanding mechanical, thermal, and electrical properties, nanocarbon materials offer ample opportunities for ...
Chuanbing Li, Jie Xue, Qingbin Zheng
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Interfacial Engineering in Nanocomposites
MRS Proceedings, 1999ABSTRACTThis paper will present details of interfacial design, structure and properties in a variety of different nanocomposites. The materials discussed include co-sputtered nanoscale Ag/SiO2 and Ag/Si thin films which exhibit novel optoelectronic behaviour, and melt spun nanoscale Pb/Al and Sn/Al sheets which exhibit novel mechanical behaviour.
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Interfacial engineering of heterogeneous catalysts for electrocatalysis
Materials Today, 2021Abstract Electrocatalysis is recognized as a practical process for chemical energy conversion, which has attracted considerable research efforts in the design and development of high-performing electrocatalysts in recent decades. The interface formed between two or more components in heterogeneous catalyst plays a critical role for electrocatalysis ...
Youkui Zhang +3 more
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Interfacial Engineering by Introducing an Interlayer
2020As discussed in Chap. 2, it is difficult to inject electrons from the electrode to the organic layer by employing only metal oxides in HOILEDs. To reduce the driving voltage of inverted OLEDs, the EIL in an inverted OLED should be prepared by incorporating metal oxides and an interlayer, as illustrated in Fig. 3.1.
Katsuyuki Morii, Hirohiko Fukagawa
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Journal of Applied Physics, 2021
Effective heat dissipation is the bottleneck problem for the development and commercialization of GaN-based high-power electronic and photonic devices. To address this challenge and explore the underlying mechanism of phonon transportation across the GaN/AlN heterointerface, in this work, we formed three types of GaN/AlN heterostructures with ...
Quanjie Wang +3 more
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Effective heat dissipation is the bottleneck problem for the development and commercialization of GaN-based high-power electronic and photonic devices. To address this challenge and explore the underlying mechanism of phonon transportation across the GaN/AlN heterointerface, in this work, we formed three types of GaN/AlN heterostructures with ...
Quanjie Wang +3 more
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Interfacial Engineering for Gradient Optical Fiber
Advanced Optical Materials, 2020AbstractGradient functionalization is a widely applied process in materials science that involves generating gradient distribution of composition or structure to yield materials with new functions or improved properties. Here an interfacial engineering is described for construction of gradient fiber, which exhibits gradient distribution of active ...
Bijiao Lan +7 more
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