Designation of the experimental setup from Fig 1. by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

Mask models M1–M6 with the corresponding price. by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

S3 File - by Robin Halamicek (17020918)

“…After temperature/humidity variation and autoclave sterilization, melt blown masks were able to retain a filtration efficiency up to over 90% at 0.1 μm contrary to nano-masks showing a decrease down to around 70%. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Catalyst-Free and Rapid Chemical Approach for in Situ Growth of “Chemically Reactive” and Porous Polymeric Coating by Supriya Das (529597)

“…Furthermore, the choice of small alkylamines for post-covalent modifications of the “chemically reactive” dip-coating provided superhydrophobicity with a tailored water adhesion. A gradual increase in both roll-off angles, and the contact angle hysteresis (from 5° to 30°) was noted with a decrease in the hydrocarbon tail of selected alkylamines. …”

Inhibition of the Hedgehog pathway partially rescues pancreas formation in pancreas with activated β-catenin signaling. by Jose Luis Muñoz-Bravo (3220134)

“…<p>Increased Shh expression in the embryonic (E13.5) epithelium of <i>Pdx1-Cre; Ctnnb1</i>^{<i>tm1Mmt/+</i>} pancreas (B) compared to control pancreata (A). …”

Optimisation of read depth, DNA quantity, and unique alternate observation threshold. by Melinda L. Tursky (20790436)

“…<p>A: The detection rate of reference standard variants ranging from 0.0008 to 0.1 VAF at 500-5,000 × depth. …”

Dapagliflozin alleviates thioacetamide induced-liver fibrosis in rats via controlling the Nrf2/HO-1 and TLR4/TGF-β1/PI3K signaling pathways by Nourhan Hussien Hassan (21196602)

GRP silencing on PTEN/AKT/mTOR signaling and MYCN, TWIST, FAK. by Pritha Paul (382332)

“…<p>(A) BE(2)-C/Tet/shGRP (+DOX) cells and SH-SY5Y/Tet/shGRP (+DOX) cells had an increase in PTEN expression along with correlative decreases in pAKT and pmTOR expression when compared to control cells (without doxycycline; -DOX). …”

Expression levels of the selected genes knocked down by RNAi. by Dong Fang (168743)

“…A 160 µg dosage was only used in the <i>krmp</i>-injected group, because the expression did not decrease significantly in the 40 µg dosage-injected group.…”

Treating dental crowding with mandibular incisor extraction in an Angle Class I patient by Gislana Braga Machado (12852549)

One page deciphering the 3x + 1 Problem by Ke Li (8802167)

Table1_The fission fragment rocket engine for Mars fast transit.XLSX by J. Gahl (17140540)

Trends in Skin Conductance and Heart Rate during Exposure to Disgusting Stimuli. by Kevin B. Smith (341593)

OA-Controls Dataset.xlsx by Penny Moss (820709)