Tailoring Ca-Based Nanoparticles by Polyol Process for Use as Nematicidals and pH Adjusters in Agriculture

The remarkable progress in nanotechnology has extended the application of inorganic nanoparticles (NPs) in the agriculture sector, as both economically sustainable and environmentally sound alternatives. Root knot nematodes are undoubtedly a foremost problem of agriculture, and research strives to develop effective materials to tackle this issue. Herein, the microwave-assisted selective polyol synthesis of different compositions of Ca-based NPs, Ca(OH)2, Ca(OH)2/CaCO3, and CaCO3 is reported and the products were evaluated as nematicides and pH adjusters. Two precursors (CaCl2 and Ca(NO3)2) and three polyols (1,2-propylene glycol (PG), tetraethylene glycol (TEG), polyethylene glycol (PEG 8000)) that differ in their redox potential have been utilized to provide selectivity over composition. On the basis of the utilized polyols, NPs are produced as inorganic/organic hybrid formulations with a biocompatible organic coating that provides increased colloidal stability and controlled release of active components. Characterization of NPs has been carried out by XRD, TGA, FTIR, TEM, and pH-metry. Each composition exhibited different pH changing ability, an essential feature for agrochemical applications. The in vitro nematicidal activity of Ca(OH)2, Ca(OH)2/CaCO3, and CaCO3NPs was evaluated on second stage juveniles (J2) of two Meloidogyne species (Meloidogyne incognita and Meloidogyne javanica) based on nematode paralysis experiments. Results unveiled nematicidal activity for all evaluated Ca-based NPs, while Ca(OH)2 and CaCO3 NPs appeared to be the most and the least effective ones, respectively. The nematicidal effect appears to be boosted by the release of [OH]- anions, as indicated by pH-metric measurements, displaying the crucial role of [OH]- anions in their nematicidal activity

Structure Differentiation of Hydrophilic Brass Nanoparticles Using a Polyol Toolbox

Nano-brasses are emerging as a new class of composition-dependent applicable materials. It remains a challenge to synthesize hydrophilic brass nanoparticles (NPs) and further exploit them for promising bio-applications. Based on red/ox potential of polyol and nitrate salts precursors, a series of hydrophilic brass formulations of different nanoarchitectures was prepared and characterized. Self-assembly synthesis was performed in the presence of triethylene glycol (TrEG) and nitrate precursors Cu(NO3)2·3H2O and Zn(NO3)2·6H2O in an autoclave system, at different temperatures, conventional or microwave-assisted heating, while a range of precursor ratios was investigated. NPs were thoroughly characterized via X-ray diffraction (XRD), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), transmition electron microscopy (TEM), Fourier-transform infrared (FTIR) spectroscopy, dynamic light scattering (DLS), and ζ-potential to determine the crystal structure, composition, morphology, size, state of polyol coating, and aqueous colloidal stability. Distinct bimetallic α-brasses and γ-brasses, α-Cu40Zn25/γ-Cu11Zn24, α-Cu63Zn37, α-Cu47Zn10/γ-Cu19Zn24, and hierarchical core/shell structures, α-Cu59Zn30@(ZnO)11, Cu35Zn16@(ZnO)49, α-Cu37Zn18@(ZnO)45, Cu@Zinc oxalate, were produced by each synthetic protocol as stoichiometric, copper-rich, and/or zinc-rich nanomaterials. TEM sizes were estimated at 20–40 nm for pure bimetallic particles and at 45–70 nm for hierarchical core/shell structures. Crystallite sizes for the bimetallic nanocrystals were found ca. 30–45 nm, while in the case of the core-shell structures, smaller values around 15–20 nm were calculated for the ZnO shells. Oxidation and/or fragmentation of TrEG was unveiled and attributed to the different fabrication routes and formation mechanisms. All NPs were hydrophilic with 20–30% w/w of polyol coating, non-ionic colloidal stabilization (−5 mV < ζ-potential < −13 mV) and relatively small hydrodynamic sizes (<250 nm). The polyol toolbox proved effective in tailoring the structure and composition of hydrophilic brass NPs while keeping the crystallite and hydrodynamic sizes fixed

Mastering the game of Go without human knowledge

A long-standing goal of artificial intelligence is an algorithm that learns, tabula rasa, superhuman proficiency in challenging domains. Recently, AlphaGo became the first program to defeat a world champion in the game of Go. The tree search in AlphaGo evaluated positions and selected moves using deep neural networks. These neural networks were trained by supervised learning from human expert moves, and by reinforcement learning from self-play. Here we introduce an algorithm based solely on reinforcement learning, without human data, guidance or domain knowledge beyond game rules. AlphaGo becomes its own teacher: a neural network is trained to predict AlphaGo’s own move selections and also the winner of AlphaGo’s games. This neural network improves the strength of the tree search, resulting in higher quality move selection and stronger self-play in the next iteration. Starting tabula rasa, our new program AlphaGo Zero achieved superhuman performance, winning 100–0 against the previously published, champion-defeating AlphaGo

Vitamin D and periodontal infection

Abstract The aim of the present study was to examine associations between serum 25-hydroxyvitamin D [25(OH)D] and 1,25-dihydroxyvitamin D[(1,25(OH)2D]—the circulating and active forms of vitamin D—and periodontal infection. The data were gathered from a case-control study (63 periodontitis patients and 30 periodontally healthy controls) and an intervention study among individuals with type 1 diabetes mellitus (T1DM, 80 patients at the baseline and 65 after periodontal treatment). The periodontal data and the levels of serum 25(OH)D, 1,25(OH)2D and parathyroid hormone (PTH) were available. A third data set included periodontal data and the serum level of 25(OH)D of 1262 non-smoking and non-diabetic 30–49-year-old individuals (Health 2000 Survey). Serum 25(OH)D analyses were done using enzyme-linked immunoassay and radioimmunoassay, 1,25(O)2D analyses using enzyme-immunoassay after purification of 1,25(OH)2D by immunoextraction and PTH analyses using electrochemiluminescence immunoassay. In the case-control study individuals with a low serum 1,25(O)2D level were more likely to belong to the periodontitis group than to the periodontally healthy group and an inverse association was observed between serum 1,25(OH)2D and severity of periodontitis at the baseline of the intervention study. Serum 1,25(OH)2D increased significantly after periodontal treatment in the T1DM patients; a finding that was considered suggestive of a causal relationship between serum 1,25(OH)2D and periodontal infection. Also, serum PTH increased after periodontal treatment; this increase, which was statistically significant (p = 0.016) in patients with moderate or severe periodontitis, may partly account for the earlier observed post-treatment increase in serum 1,25(OH)2D level. Possible explanations for low serum 1,25(OH)2D in periodontal infection may be increased degradation of 1,25(OH)2D, increased use of 1,25(OH)2D, or decreased hydroxylation of 25(OH)D The association between serum 25(OH)D level and periodontal infection was weak, if existent. An inverse association between serum 25(OH)D and the severity of periodontal infection was observed only in the T1DM patients. Among individuals with low plaque level, those in higher 25(OH)D quintiles tended to have fewer teeth with deepened periodontal pockets than those in lower quintiles; a finding which was interpreted to mean a slight protective role of 25(OH)D against periodontal infection.Tiivistelmä Tutkimuksen tarkoituksena oli selvittää seerumin 25-hydroksivitamiini D:n [25(OH)D, D-vitamiinin varastomuoto] ja 1,25-dihydroksivitamiini D:n [1,25(OH)2D, D-vitamiinin aktiivinen muoto] tasojen yhteyttä parodontiumin alueen infektiosairauksiin. Tulokset perustuvat kolmeen tutkimusasetelmaan: tapaus-verrokki-tutkimus (63 parodontiitti-potilasta, 30 verrokkia), interventio-tutkimus [80 tyypin 1 diabetes mellitus (T1DM) potilasta, joista 65 osallistui seurantaan parodontologisen hoidon jälkeen] ja poikittaistutkimus Terveys 2000 tutkimuksen osa-aineistossa (1262 30-49 vuotiasta tupakoimatonta ei-diabeetikkoa). Tapaus-verrokki- ja interventiotutkimuksissa tutkittiin myös seerumin parathormoonin (PTH) yhteyttä parodontaali-infektioon sekä PTH:n vaikutusta seerumin 1,25(OH)2D tasoon infektion hoidon jälkeen. D-vitamiinin ja PTH:n tasot määritettiin immunologisin menetelmin. Yhteyksiä tutkittiin käyttäen vakioituja monimuuttujamalleja. Tapaus-verrokki-tutkimuksessa yksilöt, joilla seerumin 1,25(OH)2D taso oli alhainen, kuuluivat todennäköisemmin parodontiitti- kuin verrokkiryhmään. Interventiotutkimuksen alkutilanteessa seerumin 1,25(OH)2D:n ja parodontaali-infektion vaikeusasteen välillä vallitsi tilastollisesti merkittävä käänteinen yhteys ja taso nousi merkittävästi infektion hoidon jälkeen. Myös seerumin PTH taso nousi parodontaali-infektion hoidon jälkeen; nousu oli tilastollisesti merkittävä (p = 0.016) pitkälle edennyttä parodontiittia sairastavilla. Interventiotutkimuksen tulokset viittaavat kausaaliseen yhteyteen 1,25(OH)2D:n ja parodontaali-infektion välillä. Alhainen seerumin 1,25(OH)2D pitoisuus infektion vallitessa voi selittyä sen suurella käytöllä immuunipuolustukseen infektion aikana tai lisääntyneellä hajoamisella. Tason nousu hoidon jälkeen tukee edellä mainittua. PTH on 25(OH)D:n hydroksylaation pääsäätelijä ja 1,25(OH)2D:n nousua hoidon jälkeen voi osittain selittää myös seerumin PTH tason kohoaminen. Seerumin 25(OH)D:n ja parodontaali-infektion välillä havaittu yhteys oli heikko, mutta ei täysin sulje pois 25(OH)D:n suojaavaa vaikutusta. Käänteinen yhteys löytyi vain interventiotutkimuksen alkutilanteessa T1DM potilailla. Infektion hoito ei vaikuttanut 25(OH)D tasoon. Terveys 2000 tutkimuksen osa-aineistossa havaittiin hyvän suuhygienian omaavilla jonkin verran alhaisempi määrä syventyneitä ientaskuja ylemmissä kuin alemmissa 25(OH)D kvintiileissä