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Mashup Score: 3Ab initio quantum dynamics of plasmonic charge carriers - 1 year(s) ago
Charge transfer across metal/semiconductor interfaces is central to optoelectronic functions of many applications, including photovoltaics, detection, catalysis, etc. [1–6]. Charge transfer should be fast to compete with other photophysical processes, such as carrier thermalization, energy relaxation, charge trapping, diffusion, and recombination. Various approaches have been utilized to…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 1
The emergence of applications such as 3D bioprinting, the IoT, bioelectronics, and wearable electronics for integration into textiles requires the evolution of stress sensors that can adapt to a broad range of properties, such as stretchability, stress distribution, and multimodal readouts, while also satisfying application-focused demands that may include biocompatibility, selectivity,…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Technology pull: scale-up of polymeric mechanochemical force sensors. Online now in @TrendsChemistry @FiamUnicam, @NiamhTheFox, @EricaRokutan, Etienne Rognin, @IfMCambridge, @Cambridge_Eng@TrendsChemistry #S23MRS https://t.co/RtaH0bgNOq
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Mashup Score: 0
The crystal structure of metal NMs is a crucial factor in determining corresponding physical and chemical properties [1–4], indicating that phase control and investigating new-type crystal structures (not represented by well-known crystal structures) are quite important for developing new functions as well as enhancing well-known properties. For that purpose, NMs are attractive because the phase…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Stabilization of unprecedented crystal phases of metal nanomaterials - read the full article by Toshiharu Teranishi @univkyoto & others in @TrendsChemistry #S23MRS https://t.co/A4SDD9GceF
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Mashup Score: 2
The crystal structure of metal NMs is a crucial factor in determining corresponding physical and chemical properties [1–4], indicating that phase control and investigating new-type crystal structures (not represented by well-known crystal structures) are quite important for developing new functions as well as enhancing well-known properties. For that purpose, NMs are attractive because the phase…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Out now in @TrendsChemistry "Stabilization of unprecedented crystal phases of metal nanomaterials" authored by Toshiharu Teranishi @univkyoto & others #ACSSpring2023 https://t.co/LxYeRuDqHx
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Mashup Score: 0
The emergence of applications such as 3D bioprinting, the IoT, bioelectronics, and wearable electronics for integration into textiles requires the evolution of stress sensors that can adapt to a broad range of properties, such as stretchability, stress distribution, and multimodal readouts, while also satisfying application-focused demands that may include biocompatibility, selectivity,…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Online now in @TrendsChemistry "Technology pull: scale-up of polymeric mechanochemical force sensors" by @NiamhTheFox, @EricaRokutan, Etienne Rognin, @FiamUnicam @IfMCambridge, @Cambridge_Eng #ACSSpring2023 https://t.co/BgiPD5EkIX
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Mashup Score: 0Ion migration in hydride materials - 1 year(s) ago
Of particular interest in the present study is ion migration in hydrides. Such motion has profound implications for dynamic H absorption/desorption into/from the lattice of hydrides for hydrogen storage, purification, and separation. The proton/electron transfers from the lattice to its surface for chemical reactions as well as charge transfer across its bulk phase for solid-state electrolytes…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Check out this review "Ion migration in hydride materials" by Ping Chen @dicp_cas & others @TrendsChemistry #apsmarch https://t.co/tXn7tO1zS7
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Mashup Score: 4The chemistry of chemically fueled droplets - 1 year(s) ago
Liquid compartments without a surrounding membrane control vital functions and chemistries in living cells. One subset of droplets regulated by chemical reactions is chemically fueled droplets. The phase-separating molecules that form these droplets are activated and deactivated by a reaction cycle that consumes a high-energy molecule (i.e., a chemical fuel). That means that the droplet exists…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Check out "The chemistry of chemically fueled droplets" by @BoekhovenLab & @CarstenDonau, published in @TrendsChemistry #apsmarch https://t.co/91OHLtMF5g
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Mashup Score: 1
The development of all-inorganic lead-free perovskite materials has attracted tremendous attention over the past few years due to their advantages in reduced toxicity, rich composition, unique crystal structures, and enhanced stability. All-inorganic lead-free heterometallic halide layered double perovskites (LDPs), also called quadruple perovskites, have emerged recently as a class of promising…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Progress in all-inorganic heterometallic halide layered double perovskites - read the full feature review by Ou Chen @chematbrown @BrownUResearch & colleagues in @TrendsChemistry #apsmarch https://t.co/YVF3X71N5P
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Mashup Score: 0
Since their discovery a few decades ago, metal–organic frameworks (MOFs) have suffered from poor hydrolytic stability. Since then, significant effort has been devoted to design robust MOFs, including their utilization for water-related applications to overcome relevant societal challenges. This short review provides guidelines on the key parameters that drive the assembly of hydrothermally stable…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Metal–organic frameworks and water: ‘From old enemies to friends’? Check out this review by @MOF_IMAP & Georges Mouchaham @Chimie__ENS @ESPCI_Paris @CNRS @ENS_ULM @psl_univ @TrendsChemistry #F22MRS https://t.co/ekAgvRuudL
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Mashup Score: 3
Hybrid metal halides, as a class of emerging luminescent materials, have received considerable attention for optoelectronic applications and beyond. The molecular dimensionality of hybrid metal halides is affected significantly by the organic ligands, leading to versatile energy-level structures and tunable photoluminescence (PL) behaviors. In this review, we summarize the structural…
Source: Trends in ChemistryCategories: General Medicine News, Latest HeadlinesTweet-
Out now in @TrendsChemistry "Molecular dimensionality and photoluminescence of hybrid metal halides" by Zhiguo Xia (South China University of Technology) #F22MRS https://t.co/cVWItdbe20
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Online now in @TrendsChemistry "Ab initio quantum dynamics of plasmonic charge carriers" @oprezhdo @USCChemistry & Wei Li (Hunan Agricultural University) et al. #S23MRS https://t.co/FO3zUZg9fJ