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114

项与 Kharazmi University 相关的临床试验

IRCT20220804055617N1

/ SuspendedN/AIIT

Effectiveness of the resistance exercises with motor skills training and pain reprocessing program on pain, performance, and quality of life in flight attendants with chronic non-specific low back pain

开始日期2025-12-20

申办/合作机构

Kharazmi University

IRCT20231118060102N1

/ RecruitingN/AIIT

Comparison of the effect of adding pain neuroscience education to high-load strengthening exercises on clinical and functional outcomes of participants with hyper mobility spectrum disorder

开始日期2024-11-09

申办/合作机构

Kharazmi University

IRCT20180627040251N8

/ RecruitingN/AIIT

Effect of balance training with and without stroboscopic vision on kinesiophobia, proprioception and timing of muscle activity of selected muscles in people with chronic ankle instability

开始日期2024-07-10

申办/合作机构

Kharazmi University

100 项与 Kharazmi University 相关的临床结果

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0 项与 Kharazmi University 相关的专利（医药）

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7,408

项与 Kharazmi University 相关的文献（医药）

2025-09-01·IEEE Journal of Selected Topics in Quantum Electronics

Blochnium-Based Josephson Junction Parametric Amplifiers: Superior Tunability and Linearity

作者: Akbari, Mohsen ; Zandi, Hesam ; Salmanogli, Ahmad

2025-08-01·Colloids and Surfaces A: Physicochemical and Engineering Aspects

Molecular dynamics simulation of Ag@MoS2 nanocomposite membrane as a new nanofiltration membrane

作者: Abareshi, Neda ; Mofidnia, Ebrahim ; Salemi, Sirous ; Mehrjouei, Esmat ; Abbaspour, Mohsen ; Akbarzadeh, Hamed

In the desalination process, the trade-off coordination between water permeability and salt rejection is a major challenge that requires precise adjustment of membrane properties and operational conditions.Using membrane materials with a nanostructured design that can provide suitable pores for water mols. while limiting the passage of salt ions can help achieve this balance.In this study, a novel composite membrane consisting of MoS₂ layers and metal nanoparticles is introduced.In other words, in this work, the performance of pure MoS₂ and Ag@MoS₂ membranes in water desalination has been compared using mol. dynamics simulation.In order to investigate the effect of size and d. of silver nanoparticles in the membrane, five different systems have been simulated, including MoS₂ membrane with three 55-at. silver nanoparticles (3Ag₅₅@MoS₂), three 147-at. silver nanoparticles (3Ag₁₄₇@MoS₂), five 55-at. silver nanoparticles (5Ag₅₅@MoS₂), and five 147-at. silver nanoparticles (5Ag₁₄₇@MoS₂).The simulation results showed that nanoparticles with large size and low d. increased the interlayer distance and free volume of pure MoS₂ membrane, which led to an increase in the water flux.An increase in the d. of nanoparticles and the resulting spatial barrier caused a reduction in the water flow.The results also showed that the membrane containing nanoparticles with large size and low d. (i.e. 3Ag₁₄₇@MoS₂) had excellent selectivity (100 %) towards salt ions at low pressures implemented in this study (5 MPa).However, by increasing the pressure to 50 and 200 MPa, their selectivity decreased to 94 % and 85 %, resp.In general, in this study, it has been shown that by precisely tuning the size and d. of the metal nanoparticles, an ideal membrane for desalination can be achieved-one that enhances both water flux and salt rejection while consuming low energy.It is expected that the results of this study can help researchers in the field of making composite membranes containing nanoparticles.

2025-08-01·Journal of Structural Design and Construction Practice

Analyzing Progressive Damage of the Millennium Dome’s Tensile Membrane under Storm Eunice

作者: Hosseini Lavassani, Seyed Hossein ; Noroozinejad Farsangi, Ehsan ; Kazemian, Mahyar ; Ardestani, Zahra Alsadat

100 项与 Kharazmi University 相关的药物交易

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100 项与 Kharazmi University 相关的转化医学

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