SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4296700670> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W4296700670 endingPage "17288" @default.
W4296700670 startingPage "17274" @default.
W4296700670 abstract "In nature, water is vital for maintaining homeostasis. Particularly, organisms (e.g., plant leaf, bird feather) exploit water fluidics for motions. Hydration-adaptive crystallization is the representative water-responsive actuation of biopolymers. This crystallization has inspired the development of intelligent human–robot interfaces. At the same time, it hinders the consistent adhesion of tissue adhesive. As hydration-adaptive crystallization is inevitable, the on-demand control of crystallization is desirable in the innovative biopolymeric biomedical systems. To this end, this study developed an amino acid-based technology to artificially up- or down-regulate the inevitable crystallization of silk fibroin. A case II diffusion model was constructed, and it revealed that the activity of polar amino acid is related to crystallization kinetics. Furthermore, the water dynamics study suggested that active amino acid stabilizes crystallization-triggering water molecules. As a proof-of-concept, we verified that a 30% increase in the activity of serine resulted in a 50% decrease in the crystallization rate. Furthermore, the active amino acid-based suppression of hydration-adaptive crystallization enabled the silk fibroin to keep its robust adhesion (approximately 160 kJ m–3) by reducing the water-induced loss of adhesive force. The proposed silk fibroin was demonstrated as a stable tissue adhesive applied on ex vivo porcine mandible tissue. This amino acid-based regulation of hydration-adaptive crystallization will pioneer next-generation biopolymer-based healthcare." @default.
W4296700670 created "2022-09-23" @default.
W4296700670 creator A5000456381 @default.
W4296700670 creator A5027715150 @default.
W4296700670 creator A5036186277 @default.
W4296700670 creator A5038361061 @default.
W4296700670 creator A5049506913 @default.
W4296700670 creator A5056763930 @default.
W4296700670 creator A5069109896 @default.
W4296700670 creator A5070392680 @default.
W4296700670 creator A5074370768 @default.
W4296700670 creator A5076984115 @default.
W4296700670 creator A5079494847 @default.
W4296700670 creator A5091436272 @default.
W4296700670 date "2022-09-21" @default.
W4296700670 modified "2023-10-13" @default.
W4296700670 title "Regulation of the Inevitable Water-Responsivity of Silk Fibroin Biopolymer by Polar Amino Acid Activation" @default.
W4296700670 cites W1675132674 @default.
W4296700670 cites W1994101288 @default.
W4296700670 cites W1994931841 @default.
W4296700670 cites W1995571108 @default.
W4296700670 cites W1997870466 @default.
W4296700670 cites W2003258297 @default.
W4296700670 cites W2037991152 @default.
W4296700670 cites W2045781645 @default.
W4296700670 cites W2055393399 @default.
W4296700670 cites W2059805184 @default.
W4296700670 cites W2060077653 @default.
W4296700670 cites W2066844601 @default.
W4296700670 cites W2067520919 @default.
W4296700670 cites W2067601928 @default.
W4296700670 cites W2075608977 @default.
W4296700670 cites W2089608829 @default.
W4296700670 cites W2090648204 @default.
W4296700670 cites W2090945894 @default.
W4296700670 cites W2118528218 @default.
W4296700670 cites W2138138104 @default.
W4296700670 cites W2155669822 @default.
W4296700670 cites W2168901333 @default.
W4296700670 cites W2259787847 @default.
W4296700670 cites W2584350454 @default.
W4296700670 cites W2616537300 @default.
W4296700670 cites W2740710461 @default.
W4296700670 cites W2756885549 @default.
W4296700670 cites W2806762213 @default.
W4296700670 cites W2807386796 @default.
W4296700670 cites W2884957107 @default.
W4296700670 cites W2905582157 @default.
W4296700670 cites W2908029832 @default.
W4296700670 cites W2941953180 @default.
W4296700670 cites W2972566002 @default.
W4296700670 cites W2978755649 @default.
W4296700670 cites W2979307917 @default.
W4296700670 cites W2990049859 @default.
W4296700670 cites W2991192148 @default.
W4296700670 cites W2996620253 @default.
W4296700670 cites W2997693043 @default.
W4296700670 cites W2998801583 @default.
W4296700670 cites W3001460898 @default.
W4296700670 cites W3012426727 @default.
W4296700670 cites W3021522147 @default.
W4296700670 cites W3036140506 @default.
W4296700670 cites W3081643711 @default.
W4296700670 cites W3086190040 @default.
W4296700670 cites W3090570519 @default.
W4296700670 cites W3097232373 @default.
W4296700670 cites W3101960347 @default.
W4296700670 cites W3125598166 @default.
W4296700670 cites W3129596738 @default.
W4296700670 cites W3137233293 @default.
W4296700670 cites W3154736103 @default.
W4296700670 cites W3168318464 @default.
W4296700670 cites W3183779875 @default.
W4296700670 cites W3187887373 @default.
W4296700670 cites W3190554042 @default.
W4296700670 cites W3198709367 @default.
W4296700670 cites W4207014255 @default.
W4296700670 cites W4210737912 @default.
W4296700670 cites W4226304642 @default.
W4296700670 cites W4251141134 @default.
W4296700670 cites W4293237694 @default.
W4296700670 doi "https://doi.org/10.1021/acsnano.2c07971" @default.
W4296700670 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36129365" @default.
W4296700670 hasPublicationYear "2022" @default.
W4296700670 type Work @default.
W4296700670 citedByCount "0" @default.
W4296700670 crossrefType "journal-article" @default.
W4296700670 hasAuthorship W4296700670A5000456381 @default.
W4296700670 hasAuthorship W4296700670A5027715150 @default.
W4296700670 hasAuthorship W4296700670A5036186277 @default.
W4296700670 hasAuthorship W4296700670A5038361061 @default.
W4296700670 hasAuthorship W4296700670A5049506913 @default.
W4296700670 hasAuthorship W4296700670A5056763930 @default.
W4296700670 hasAuthorship W4296700670A5069109896 @default.
W4296700670 hasAuthorship W4296700670A5070392680 @default.
W4296700670 hasAuthorship W4296700670A5074370768 @default.
W4296700670 hasAuthorship W4296700670A5076984115 @default.
W4296700670 hasAuthorship W4296700670A5079494847 @default.