Fig 4 - by Lingru Ruan (18995544)

Number of alveoli based on data from Tschanz et al. [6] together with our linearly scaled data (our data multiplied by 5.04). by David Haberthür (8407422)

NDP-MSH decreases Pam₃CSK₄-induced microglial phagocytosis of latex beads. by Lila Carniglia (348123)

pH in the abdominal midgut of <i>Lutzomyia longipalpis</i> females fed on 100 mM amino acids solution plus 199 medium with and without <i>Leishmania</i> products submitted to diffe... by Vania Cristina Santos (5661157)

Silencing <i>cullin-1/5</i> decreased mRNA and protein expression of NF-κB dependent cytokines. by Attinder Chadha (11414273)

Frequency of the number of peaks (<i>N</i>_pics) (black, left vertical axis) and average amplitude of pics (<i>A</i>_pics) (red, right vertical axis) observed i... by Sławomir Grzegorczyn (12035398)

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Data set_v2. by Şehrinaz Polat (20978625)

DO rather than depth affects taxa distributions and twenty-five taxa were identified as indicators of different DO conditions. by Rachel L. Spietz (782905)

Hydroxyl Defects in LiFePO₄ Cathode Material: DFT+<i>U</i> and an Experimental Study by Dmitry A. Aksyonov (4918594)

“…The P occupancy decrease is explained by the formation of hydrogarnet-like P/4H and P/5H defects, which have the lowest formation energies among all considered OH defects. …”

S1 Raw data - by Resham Thapa (13428081)

“…<div><p>As plant litter decomposes, its mass exponentially decreases until it reaches a non-zero asymptote. However, decomposition rates vary considerably among litter types as a function of their overall quality (i.e., carbon:nitrogen (C:N) ratio and litter chemistry). …”

Ratcheting experiments with 500 nm & 100 nm magnetic particles. by Oladunni B. Adeyiga (10164275)

“…A-C) 100 nm and 500 nm particles accumulate, with 100 nm particles needing a longer ratcheting time. …”

Effect of an olive-oil bioactive extract on basal TEER (A) and TNF-α induced decrease in TEER (B) <i>in vitro</i>. by Martin Liehr (3863431)

Deletion of LmjPRMT7 results in a decrease in the number of parasites inside the <i>P</i>. <i>duboscqi</i> vector. by Juliana Alcoforado Diniz (2856020)

Novel site-specific PEGylated L-asparaginase by Giovanna Pastore Meneguetti (6325571)

“…In this work we developed a site-specific N-terminus PEGylation protocol for ASNase. …”

Effects of Calcium and Natural Organic Matter on the Transport and Remobilization of Colloidal Activated Carbon in Saturated Porous Media: Insights from Force Spectroscopy by Xun Guan (3842929)

“…Our results showed that the presence of Ca²⁺ (e.g., >5 mM) under high ionic strength conditions (100 mM) enhanced CAC deposition and subsequently reduced its remobilization upon the introduction of a low ionic strength solution (i.e., DI water). …”