Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

DataSheet1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.docx by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

DataSheet1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.docx by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation2_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation2_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…Flow cytometry demonstrated N4-RMSN₅₀@PEG/THPMP had few cellular uptakes. …”

Nanomediated Stimulation: An Alternative to Brassinolide Hormone Replacement Therapy for Plant Resistance Activation by Hui Feng (174331)

Acoustic characteristics of voice in different cycles of life: an integrative literature review by Evelyn Alves Spazzapan (8047517)

Experimental investigation on treatment of high-water-content dredged slurry with vacuum preloading-airbag pressurization by Hongping Meng (416636)

SNB-1::GFP Expression by D Motor Neurons. by Renee Baran (366407)

Plasma levels of cardiac Troponin I/T and the correlation between Troponin I/T levels and LVMI/IVS. by Ping Wen (318221)

Are <i>Elaeagnus umbellata </i> invasions limited by microbial mutualists? by Scott Meiners (8344812)

Excel spreadsheet with numerical data for Figs 3, 5, 6, 7.xlsx by Izabella Sol (19479139)

Comparison of distribution of OSCE B scores immediately before and after training, and six months after training. by Natalie Hoi-Man Chan (10101621)

Image_2_Characterization and functional analysis of AhGPAT9 gene involved in lipid synthesis in peanut (Arachis hypogaea L.).tif by Yue Shen (132970)

“…The two lines with the largest increases in seed oil content showed a decrease in palmitic acid (C16:0) and eicosenic acid (C20:1) by 17.35% and 8.33%, respectively, and an increase in linolenic acid (C18:3) and eicosatrienoic acid (C20:3) by 14.91% and 15.94%, respectively. …”

The meaning attributed by tutors to experiences involving human rights in the academic environment by Jamilly Nazário Souza de Oliveira (12795375)

“…Given that, it is important to nurture a Human Rights culture in educational institutions, aiming at improving inter-personal dynamics and the educational environment. …”