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Mineral weathering by Collimonas pratensis PMB3(1) as a function of mineral properties, solution chemistry and carbon substrate
While the role of mineral weathering (MWe) bacteria in nutrient cycling and plant growth promotion is established, our understanding of the molecular...
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Tailoring the surface chemistry of multiwalled carbon nanotubes through acid treatment to enhance the performance of supercapacitor electrodes
There is a need of alternative power sources to fulfill the demand of energy. For this concern, in the present research work, functional groups are...
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Nucleation of voids at Li-metal–ceramic–electrolyte interfaces
Electrical currents that are locally concentrated due to spatially variable interface resistance at the lithium-metal–ceramic–electrolyte interface...
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Rational tuning of thorium-organic frameworks by reticular chemistry for boosting radionuclide sequestration
The reticular chemistry strategy presents a powerful molecule-design tool to tailor the physical and chemical properties of metal-organic framework...
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Role of sintering conditions in tuning the defect chemistry and influencing the electromechanical properties of a Pb-based piezoceramic
Ferroelectric ceramic with superior electromechanical properties i.e., piezoelectric coefficient and electro strain along with high operating...
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Engineering the heterogeneous interfaces of inverse opals to boost charge transfer for efficient solar water splitting
Herein, we report a three-dimensional porous TiO 2 /Fe 2 TiO 5 /Fe 2 O 3 (TFF) inverse opal through in situ thermal solid reactions for photoelectrochemical...
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Cryogenic specimens for nanoscale characterization of solid–liquid interfaces
New cryogenic characterization techniques for exploring the nanoscale structure and chemistry of intact solid–liquid interfaces have recently been...
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Constructing ultrastable electrode/electrolyte interface for rapid potassium ion storage capability via salt chemistry and interfacial engineering
Conversion/alloying anode materials exhibiting high K storage capacities suffer from large volume variations and unstable electrode/electrolyte...
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Frontiers in hybrid and interfacial materials chemistry research
Through diversity of composition, sequence, and interfacial structure, hybrid materials greatly expand the palette of materials available to access...
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A review on lignocellulose chemistry, nanostructure, and their impact on interfacial interactions for sustainable products development
Over the last decade, the utilization of nanocellulose for novel applications has positioned this renewable source as a promising alternative...
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Metal oxide ion-gated transistors: A perspective on in operando characterizations and emerging Li-ion-based applications
In this Prospective, we discuss how ionic media interfaced to metal oxide (MO) semiconducting thin films can modulate their electronic conductivity....
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Origins of Liquid-Solid Contact Electrification
Interfaces between liquid-solid (L-S) are the most important surface science in chemistry, catalysis, energy, and even biology. The formation of... -
In situ electrochemical scanning/transmission electron microscopy of electrode–electrolyte interfaces
Insights into the dynamics of electrochemical processes are critically needed to improve our fundamental understanding of electron, charge, and mass...
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Origins of Liquid-Solid Contact Electrification
Interfaces between liquid-solid (L-S) are the most important surface science in chemistry, catalysis, energy, and even biology. The formation of... -
Indium phosphide magic-sized clusters: chemistry and applications
This paper reviews developments in the synthesis of InP quantum dots (QDs) and research on InP magic-sized clusters (MSCs), which occur as...
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Self-accelerated corrosion of nuclear waste forms at material interfaces
The US plan for high-level nuclear waste includes the immobilization of long-lived radionuclides in glass or ceramic waste forms in stainless-steel...
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Structure and properties of wet-spun nylon/graphene nanocomposite fibers
Due to an increasing demand for more portable and intelligent electronic devices, strong and flexible fibers which are also electrically conductive...
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Continuous synthesis of ultrasmall core-shell upconversion nanoparticles via a flow chemistry method
A continuous synthesis method for the less than 10 nm core-shell upconversion nanoparticles was developed via coiled tube embedded flask reactors and...