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1. Superomniphobic Papers for On‐Paper pH Sensors

   https://doi.org/10.1002/admi.201900232  

   Movafaghi, Sanli; Cackovic, Matthew_D; Wang, Wei; Vahabi, Hamed; Pendurthi, Anudeep; Henry, Charles_S; Kota, Arun_K (May 2019, Advanced Materials Interfaces)

   Abstract Paper‐based superomniphobic surfaces are of great interest because paper is flexible, inexpensive, lightweight, breathable, and recyclable. Prior reports on paper‐based superomniphobic surfaces have failed to demonstrate high mobility with low surface tension liquids. In order to overcome this issue, in this work, superomniphobic papers are developed through growth of nanofilaments on inherent microfibers of papers without noticeably altering their microscale features (i.e., diameter and distance of the microfibers). These superomniphobic papers display very low roll‐off angle, indicative of ultra‐high droplet mobility, even with low surface tension liquids. Here, a facile method is also developed to control the motion and adhesion of the droplets on the superomniphobic paper. Utilizing such liquid mobility in a controlled manner on these superomniphobic papers, a simple on‐paper pH sensor is fabricated. It is anticipated that this on‐paper, simple, and rapid detection methodology can also be extended to the colorimetric sensing of protein and chemical assays. Further, these superomniphobic papers have potential applications in water–oil separation and enhanced weight‐bearing capacity. 

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2. Antibacterial and Cytocompatible pH-Responsive Peptide Hydrogel

   https://doi.org/10.3390/molecules28114390  

   Edirisinghe, Dona_Imanga Upamadi; D’Souza, Areetha; Ramezani, Maryam; Carroll, Robert J; Chicón, Quenten; Muenzel, Cheyene L; Soule, Jonathan; Monroe, Mary_Beth Browning; Patteson, Alison E; Makhlynets, Olga V (June 2023, Molecules)

   A short peptide, FHHF-11, was designed to change stiffness as a function of pH due to changing degree of protonation of histidines. As pH changes in the physiologically relevant range, G′ was measured at 0 Pa (pH 6) and 50,000 Pa (pH 8). This peptide-based hydrogel is antimicrobial and cytocompatible with skin cells (fibroblasts). It was demonstrated that the incorporation of unnatural AzAla tryptophan analog residue improves the antimicrobial properties of the hydrogel. The material developed can have a practical application and be a paradigm shift in the approach to wound treatment, and it will improve healing outcomes for millions of patients each year. 

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3. pH-Dependent Friction of Polyacrylamide Hydrogels

   https://doi.org/10.1007/s11249-023-01779-4  

   Chau, Allison L.; Pugsley, Conor D.; Miyamoto, Madeleine E.; Tang, Yongkui; Eisenbach, Claus D.; Mates, Thomas E.; Hawker, Craig J.; Valentine, Megan T.; Pitenis, Angela A. (September 2023, Tribology Letters)

   Abstract Polyacrylamide hydrogels are widely used in biomedical applications due to their tunable mechanical properties and charge neutrality. Our recent tribological investigations of polyacrylamide gels have revealed tunable and pH-dependent friction behavior. To determine the origins of this pH-responsiveness, we prepared polyacrylamide hydrogels with two different initiating chemistries: a reduction–oxidation (redox)-initiated system using ammonium persulfate (APS) andN,N,N′N′-tetramethylethylenediamine (TEMED) and a UV-initiated system with 2-hydroxy-4′-(2-hydroxyethoxy)-2-methylpropiophenone (Irgacure 2959). Hydrogel swelling, mechanical properties, and tribological behavior were investigated in response to solution pH (ranging from ≈ 0.34 to 13.5). For polyacrylamide hydrogels in sliding contact with glass hemispherical probes, friction coefficients decreased fromµ = 0.07 ± 0.02 toµ = 0.002 ± 0.002 (redox-initiated) and fromµ = 0.05 ± 0.03 toµ = 0.003 ± 0.003 (UV-initiated) with increasing solution pH. With hemispherical polytetrafluoroethylene (PTFE) probes, friction coefficients of redox-initiated hydrogels similarly decreased fromµ = 0.06 ± 0.01 toµ = 0.002 ± 0.001 with increasing pH. Raman spectroscopy measurements demonstrated hydrolysis and the conversion of amide groups to carboxylic acid in basic conditions. We therefore propose that the mechanism for pH-responsive friction in polyacrylamide hydrogels may be credited to hydrolysis-driven swelling through the conversion of side chain amide groups into carboxylic groups and/or crosslinker degradation. Our results could assist in the rational design of hydrogel-based tribological pairs for biomedical applications from acidic to alkaline conditions. Graphical abstract 

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4. pH Tunable Patterning of Quantum Dots

   https://doi.org/10.1002/smll.202305237  

   Torun, Ilker; Huang, Conan; Kalay, Mustafa; Shim, Moonsub; Onses, M. Serdar (September 2023, Small)

   Abstract Patterning of quantum dots (QDs) is essential for many, especially high‐tech, applications. Here, pH tunable assembly of QDs over functional patterns prepared by electrohydrodynamic jet printing of poly(2‐vinylpyridine) is presented. The selective adsorption of QDs from water dispersions is mediated by the electrostatic interaction between the ligand composed of 3‐mercaptopropionic acid and patterned poly(2‐vinylpyridine). The pH of the dispersion provides tunability at two levels. First, the adsorption density of QDs and fluorescence from the patterns can be modulated for pH > ≈4. Second, patterned features show unique type of disintegration resulting in randomly positioned features within areas defined by the printing for pH ≤ ≈4. The first capability is useful for deterministic patterning of QDs, whereas the second one enables hierarchically structured encoding of information by generating stochastic features of QDs within areas defined by the printing. This second capability is exploited for generating addressable security labels based on unclonable features. Through image analysis and feature matching algorithms, it is demonstrated that such patterns are unclonable in nature and provide a suitable platform for anti‐counterfeiting applications. Collectively, the presented approach not only enables effective patterning of QDs, but also establishes key guidelines for addressable assembly of colloidal nanomaterials. 

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5. Peptide‐Modulated pH Rhythms

   https://doi.org/10.1002/cphc.202200103  

   Liu, Mengfei; Yuan, Ling; Zhu, Chenghao; Pan, Changwei; Gao, Qingyu; Wang, Hongzhang; Cheng, Zhenfang; Epstein, Irving_R (June 2022, ChemPhysChem)

   Abstract Many drugs adjust and/or control the spatiotemporal dynamics of periodic processes such as heartbeat, neuronal signaling and metabolism, often by interacting with proteins or oligopeptides. Here we use a quasi‐biocompatible, non‐equilibrium pH oscillatory system as a biomimetic biological clock to study the effect of pH‐responsive peptides on rhythm dynamics. The added peptides generate feedback that can lengthen or shorten the oscillatory period during which the peptides alternate between random coil and coiled‐coil conformations. This modulation of a chemical clock supports the notion that short peptide reagents may have utility as drugs to regulate human body clocks. 

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