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Who Discovered Nanoparticles?

Who Discovered Nanoparticles?
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United kingdomUnited statesRichard feynmanK eric drexlerBeilsteinj nanotechnolPriyom boseJ nanosci nanotechnolGerd binnigHeinrich rohrerKateryna kon shutterstockNorio taniguchiCalifornia institute of technology caltechZurich research laboratoryNational nanotechnology initiativeAmerican physical societyBritish museum

Frontiers | Antibacterial and anti-inflammatory effects of PGLa-loaded TiO2 nanotube arrays

Objectives：This study investigated the antimicrobial effect and anti-inflammatory activities of PGLa-loaded TiO2 nanotube arrays (TiO2 NTs) in osteoblast-like MG-63 cells. Methods：The surface morphology and roughness of three titanium (Ti) substrates (Ti, TiO2 NTs, PGLa-loaded TiO2 NTs) were evaluated by scanning electron microscopy (SEM) and atomic force microscope (AFM). The wettability of three titanium substrates was evaluated by contact angle. Biocompatibility of PGLa-loaded TiO2 NTs were evaluated in MG-63 cells (cell adhesion, proliferation, cytoskeletal evaluation and alkaline phosphatase activity). Spread plate counting method was used to evaluate antibacterial abilities of the Ti substrates. The calcein AM/PI staining evaluated cell viability of MG-63 cells on the substrates with or without proinflammatory factors (TNF-α). Results：The average surface roughness of untreated Ti, TiO2 NTs, PGLa-loaded TiO2 NTs were found to be 135.8±6.4 nm, 300.5±10.5 nm, 348.9&

United statesAl qahirahSouth africaUnited kingdomSouth africanJ nanosci nanotechnolWiley interdiscipPgla groupChinese academy of science shanghaiPants groupCell bankEthics committee of aerospace center hospitalPublic healthFoundation of aerospace center hospitalChinese academyCell counting

A review on lignin pyrolysis: pyrolytic behavior, mechanism, and relevant upgrading for improving process efficiency | Biotechnology for Biofuels and Bioproducts

Lignin is a promising alternative to traditional fossil resources for producing biofuels due to its aromaticity and renewability. Pyrolysis is an efficient technology to convert lignin to valuable chemicals, which is beneficial for improving lignin valorization. In this review, pyrolytic behaviors of various lignin were included, as well as the pyrolytic mechanism consisting of initial, primary, and charring stages were also introduced. Several parallel reactions, such as demethoxylation, demethylation, decarboxylation, and decarbonylation of lignin side chains to form light gases, major lignin structure decomposition to generate phenolic compounds, and polymerization of active lignin intermediates to yield char, can be observed through the whole pyrolysis process. Several parameters, such as pyrolytic temperature, time, lignin type, and functional groups (hydroxyl, methoxy), were also investigated to figure out their effects on lignin pyrolysis. On the other hand, zeolite-driven ligni

Chem engIntae hwangKyongsang namdoSouth koreaJi luMoreira ropelatoBioprod biorefinJ nanosci nanotechnolCatala genUlises miranda roldZhangx demethylationConvers biorefinShujaa aldeenRoberto paz cedenoTumbalam gootyJan heeres