• ttincits publicou uma atualização 3 anos, 3 meses atrás

    The global demand for data storage and processing is increasing exponentially. To deal with this challenge, massive efforts have been devoted to the development of advanced memory and computing technologies. Chalcogenide phase-change materials (PCMs) are currently at the forefront of this endeavor. In this Review, we focus on the mechanisms of the spontaneous structural relaxation – aging – of amorphous PCMs, which causes the well-known resistance drift issue that significantly reduces the device accuracy needed for phase-change memory and computing applications. We review the recent breakthroughs in uncovering the structural origin, achieved through state-of-the-art experiments and ab initio atomistic simulations. Emphasis will be placed on the evolving atomic-level details during the relaxation of the complex amorphous structure. We also highlight emerging strategies to control aging, inspired by the in-depth structural understanding, from both materials science and device engineering standpoints, that offer effective solutions to reduce the resistance drift. In addition, we discuss an important new paradigm – machine learning – and the potential power it brings in interrogating amorphous PCMs as well as other disordered alloy systems. Finally, we present an outlook to comment on future research opportunities in amorphous PCMs, as well as on their reduced aging tendency in other advanced applications such as non-volatile photonics.

    Air filter paper with a high filtration efficiency that can remove small-size pollutant particles and toxic gases is vital for human health and the environment. We report a nanofiltration paper that is based on wood fiber filter paper with good mechanical properties and a three-dimensional network structure. The filter paper was prepared by impregnation with multi-walled carbon nanotubes (MWCNTs) and phenol-formaldehyde (PF). The results showed that MWCNTs were present on the surfaces of the fibers and between the pores, which increased the specific surface area of the fibers and enhanced the effective interception of the particles. The optimum impregnation concentration of the MWCNT was 0.1%. Compared with the cellulose fibers (CFs), the average pore diameter of the 0.1% MWCNT–CF filter paper was reduced by 8.05%, the filtration efficiency was increased by 0.64%, and the physical properties were slightly enhanced. After impregnation with PF, the mechanical properties of the air filter paper were significantly enhanced. The PF on the fiber surfaces and at the junction of the fibers covered the MWCNTs. Based on the change in the filter paper properties after impregnation, the optimal filter paper strength index and filtration performance were observed at a solid PF content of 8.4%.

    Particles with different sizes and components in the air are in contact with and absorbed by the human body.1 Epidemiological studies have shown a strong correlation between airborne particulate exposure and respiratory disease, cardiovascular disease, and mortality.2,3 Inhalable particulate matter (PM10, aerodynamic diameter < 10 μm) and fine particulate matter (PM2.5, aerodynamic diameter < 2.5 μm) are more likely to carry harmful substances, such as heavy metals or gaseous pollutants, into the human respiratory tract and even the alveolus, causing health hazards.4 Common pollutant control methods include source control, ventilation, and purification.5 Filter paper is an effective material to reduce the concentration of particulate matter in air purification.

    Filter paper usually removes particles based on five physical effects: gravity, collision, screening, diffusion, and static electricity.6 The removal efficiency of filter paper is closely related to the relative size of the particle diameter and the paper pore size. Smaller pore sizes of the paper correspond to smaller sizes of the particles that it can intercept under the same filtration efficiency.7,8 Adjusting the structure of the filter paper to improve the air flow resistance can increase the residence time of the pollutant particles in the filter paper, resulting in a higher removal efficiency.9,10 However, the filter filtration resistance directly affects the energy consumption of the pressure leaf filter, such that extremely high filtration resistances are not recommended.11 The filtration efficiency has exhibited dependence on the fiber coarseness. Specifically, finer fibers have exhibited higher filtration efficiencies at a constant pressure drop.12 However, air filter paper must maintain a certain porosity to allow air flow. Nanofibers can increase the specific surface area of the filter paper to generate filter papers with small pore sizes, high filtration efficiencies, and high porosities.

MENTORA ELIENAI PEREIRA

Especialista em Liderança Executiva

Diretora Executiva Supra Alimentos, Palestrante, Master Trainer empresarial, formada em Teologia, Direito, MBA  em Gestão de Vendas pela FGV, Especialização em Liderança e Negócios  pela Harvard Business School – EUA, Liderança e Coaching pelo College Business da Universidade de Ohio – EUA, MBA em Desenvolvimento Humano, Especialista em inteligência emocional, Hipnoterapeuta e Master em Programação Neurolinguística.

MENTORA KENNYA FERNANDES

Kennya Fernandes, atua ativamente, há 3 décadas de experiência na área da  Educação, na formação e orientação de milhares de alunos, pais e professores, na escola pública do DF.

Idealizadora do Instituto INVESTSER.

Ministrou aulas , analisou e supervisionou dezenas de futuros psicanalistas em cursos de Psicanálise Clínica.

Hoje atua como Psicanalista Clínica , Orientadora Educacional.  Mentora Executiva para terapeutas, Orientadores Educacionais e Pais de adolescentes.

Hipnoterapeuta, palestrante, Reprogramadora Mental.

Realizou diversas palestras na escolas públicas e particulares do DF e entorno.

Master em Hipnose e

Master em  PNL  ambos pelo instituto Inner.

Pedagoga

Psicopedagoga

Especialista em Neurociência Comportamental e Cognitiva com ênfase em PNL

Especialista em Psicanálise e Saúde Mental

Palestrante Educacional

Trainer

MENTOR MARIO RONDON

Mentor e Educador Executivo. Master em PNL. Piloto militar e da aviação civil. Mestre em Educação; especialista em Mindset Ágil e Growth Hacking; Especialista em Gestão de segurança operacional e em Psicologia Positiva e Desenvolvimento do potencial Humano. Professional Scrum Master, Líder Ágil e gerente de projetos. Professor nos cursos de Administração, Gestão de Pessoas e Aviação Civil. Facilitador em treinamentos com foco em Alta performance, liderança, mentalidade ágil, comunicação e gestão do tempo

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