Color Degrees Research Articles

Quantum lozenge tiling and entanglement phase transition

While volume violation of area law has been exhibited in several quantum spin chains, the construction of a corresponding ground state in higher dimensions, entangled in more than one direction, has been an open problem. Here we construct a 2D frustration-free Hamiltonian with maximal violation of the area law. We do so by building a quantum model of random surfaces with color degree of freedom that can be viewed as a collection of colored Dyck paths. The Hamiltonian may be viewed as a 2D generalization of the Fredkin spin chain. It relates all the colored random surface configurations subject to a Dirichlet boundary condition and hard wall constraint from below to one another, and the ground state is therefore a superposition of all such classical states and non-degenerate. Its entanglement entropy between subsystems undergoes a quantum phase transition as the deformation parameter is tuned. The area- and volume-law phases are similar to the one-dimensional model, while the critical point scales with the linear size of the system L as Llog⁡L. Further it is conjectured that similar models with entanglement phase transitions can be built in higher dimensions with even softer area law violations at the critical point.

Effectiveness of the Association of Fibrin Scaffolds, Nanohydroxyapatite, and Photobiomodulation with Simultaneous Low-Level Red and Infrared Lasers in Bone Repair.

Biomaterials and biopharmaceuticals for correcting large bone defects are a potential area of translational science. A new bioproduct, purified from snake venom and fibrinogen from buffalo blood, aroused interest in the repair of venous ulcers. Expanding potential uses, it has also been used to form biocomplexes in combination with bone grafts, associated with physical therapies or used alone. The aim of this preclinical study was to evaluate low-level laser photobiomodulation (PBM) in critical defects in the calvaria of rats filled with nanohydroxyapatite (NH) associated with the heterologous fibrin biopolymer (HFB). Sixty animals were used, divided into six groups (n = 10 each): G1 (NH); G2 (HFB); G3 (NH + HFB); G4 (NH + PBM); G5 (HFB + PBM); G6 (NH + HFB + PBM). PBM simultaneously used red (R) and infrared (IR) light emission, applied intraoperatively and twice a week, until the end of the experiment at 42 days. Microtomography, bone formation can be seen initially at the margins of the defect, more evident in G5. Microscopically, bone formation demonstrated immature and disorganized trabeculation at 14 days, with remnants of grafting materials. At 42 days, the percentage of new bone formed was higher in all groups, especially in G5 (HFB, 45.4 ± 3.82), with collagen fibers at a higher degree of maturation and yellowish-green color in the birefringence analysis with Picrosirius-red. Therefore, it is concluded that the HFB + PBM combination showed greater effectiveness in the repair process and presents potential for future clinical studies.

Infrared Image Enhancement Method of Substation Equipment Based on Self-Attention Cycle Generative Adversarial Network (SA-CycleGAN)

During the acquisition of infrared images in substations, low-quality images with poor contrast, blurred details, and missing texture information frequently appear, which adversely affects subsequent advanced visual tasks. To address this issue, this paper proposes an infrared image enhancement algorithm for substation equipment based on a self-attention cycle generative adversarial network (SA-CycleGAN). The proposed algorithm incorporates a self-attention mechanism into the CycleGAN model’s transcoding network to improve the mapping ability of infrared image information, enhance image contrast, and reducing the number of model parameters. The addition of an efficient local attention mechanism (EAL) and a feature pyramid structure within the encoding network enhances the generator’s ability to extract features and texture information from small targets in infrared substation equipment images, effectively improving image details. In the discriminator part, the model’s performance is further enhanced by constructing a two-channel feature network. To accelerate the model’s convergence, the loss function of the original CycleGAN is optimized. Compared to several mainstream image enhancement algorithms, the proposed algorithm improves the quality of low-quality infrared images by an average of 10.91% in color degree, 18.89% in saturation, and 29.82% in feature similarity indices. Additionally, the number of parameters in the proposed algorithm is reduced by 37.89% compared to the original model. Finally, the effectiveness of the proposed method in improving recognition accuracy is validated by the Centernet target recognition algorithm.

Characterization of a longan pericarp browning related peroxidase with a focus on its role in proanthocyanidin and lignin polymerization

The longan pericarp turns brown dramatically after harvesting, but the mechanism is not well understood. In this work, two peroxidases were purified from longan pericarp and found to be identical to the class III peroxidases PRX53-2 and PRX53-3. In vitro, PRX53-2/3 catalyzed the browning of several pericarp abundant proanthocyanidin and lignin monomers, such as (−)-epicatechin (EC), (+)-catechin (CT) and coniferyl alcohol (ConA). PRX53–2 was upregulated and highly-expressed, while PRX53-3 was expressed at low levels after harvesting; thus, PRX53-2 was considered a browning-related gene. The reaction with both proanthocyanidin and lignin presented a greater degree of brown coloration compared to the single substrate reactions. Several procyanidins isomers, EC-ConA and CT-ConA were detected in the double-substrate reaction. These results not only demonstrate that the effects of PRX53-2 on proanthocyanidin and lignin polymerization may be crucial for longan pericarp browning, but also help in developing new strategies or preservatives to delay pericarp browning.

Operators in the internal space and locality

Realizations of the holographic correspondence in String/M theory typically involve spacetimes of the form AdS × Y where Y is some internal space which geometrizes an internal symmetry of the dual field theory, hereafter referred to as an “R symmetry”. It has been speculated that areas of Ryu-Takayanagi surfaces anchored on the boundary of a subregion of Y, and smeared over the base space of the dual field theory, quantify entanglement of internal degrees of freedom. A natural candidate for the corresponding operators are linear combinations of operators with definite R charge with coefficients given by the “spherical harmonics” of the internal space: this is natural when the product spaces appear as IR geometries of higher dimensional AdS spaces. We study clustering properties of such operators both for pure AdS × Y and for flow geometries, where AdS × Y arises in the IR from a different spacetime in the UV, for example higher dimensional AdS or asymptotically flat spacetime. We show, in complete generality, that the two point functions of such operators separated along the internal space obey clustering properties at scales sufficiently larger than the AdS scale. For non-compact Y, this provides a notion of approximate locality. When Y is compact, clustering happens only when the size of Y is parametrically larger than the AdS scale. This latter situation is realized in flow geometries where the product spaces arise in the IR from an asymptotically AdS geometry at UV, but not typically when they arise near black hole horizons in asymptotically flat spacetimes. We discuss the significance of this result for entanglement and comment on the role of color degrees of freedom.

Influence of ZnMn2O4/CuCo2O4 nano-fillers on the optical and electrical properties PVA/CMC/PEG blended polymers

(1-x)ZnMn2O4/xCuCo2O4 samples were synthesized by the co-precipitation method while polyvinyl alcohol/carboxymethyl cellulose/polyethylene glycol (PVA/CMC/PEG) blended polymer were fabricated by the casting method. Rietveld refinement analysis was used to determine the crystallite size and phase percentages for each composition were determined for all samples. The morphology and structure of PVA/CMC/PEG/(1-x)ZnMn2O4/xCuCo2O4 blends were examined using scanning electron microscopy and x-ray diffraction techniques. The reflectance and transmittance spectra were examined for blended polymers using a diffused reflectance spectrophotometer. Using LCR meter, the prepared blend films' dielectric properties were evaluated. When the blend is loaded with 0.9ZnMn2O4/0.1CuCo2O4, the lowest transmittance values (29–47 %) in the visible region are reached. As the CuCo2O4 doping levels became 10 % in the filler, the smallest direct and indirect energy gap values of 5.4 and (4.47, 1.9, 1.65) eV were attained, respectively. The linear and nonlinear optical parameters affected by the amount of CuCo2O4 in the filler samples. The optical conductivity of the doped blend reached its maximum value at x = 0.15. The CIE chromaticity diagrams revealed that the blends have varying degrees of blue color. The addition of (1-x)ZnMn2O4/xCuCo2O4 fillers improves the energy storage capability of the blends without raising the energy dissipation. The highest value of AC conductivity was achieved with the blend containing 0.9ZnMn2O4/0.1CuCo2O4. Nyquist plot revealed that the ionic conductivity increased as a result of doping. The obtained results suggest that the doped PVA/CMC/PEG/(1-x)ZnMn2O4/xCuCo2O4 blends might be used in a variety of industrial applications, including solar cell technology.

Biocontrol Strategy of Listeria monocytogenes in Ready-to-Eat Pork Cooked Ham Using Peptic Hydrolysates of Porcine Hemoglobin.

Listeria monocytogenes is a foodborne pathogen that represents a serious concern for ready-to-eat (RTE) meat products due to its persistence in production facilities. Among the different strategies for the control of this pathogen, the use of antimicrobial peptides derived from food by-products, such as slaughterhouse blood proteins, has emerged as a promising biocontrol strategy. This study evaluated for the first time the use of peptic hydrolysates of porcine hemoglobin as a biocontrol strategy of L. monocytogenes in RTE pork cooked ham. Pure porcine hemoglobin (Hb-P) and porcine cruor (P-Cru) were hydrolyzed using pepsin at different temperatures (37 °C for Hb-P and 23 °C for P-Cru) for 3 h. Then, the hydrolysates were characterized in terms of their degree of hydrolysis (DH), peptide population, color, and antimicrobial activity (in vitro and in situ) against three different serotypes of L. monocytogenes. Reducing the hydrolysis temperature of P-Cru by 14 °C resulted in a 2 percentage unit decrease in DH and some differences in the peptide composition. Nevertheless, the antimicrobial activity (in situ) was not significantly impacted, decreasing the viable count of L. monocytogenes by ~1-log and retarding their growth for 21 days at 4 °C. Although the color of the product was visibly altered, leading to more saturated reddish and yellowish tones and reduced brightness, the discoloration of the hydrolysates can be addressed. This biopreservation approach holds promise for other meat products and contributes to the circular economy concept of the meat industry by valorizing slaughterhouse blood and producing new antilisterial compounds.

Counting rainbow triangles in edge‐colored graphs

AbstractLet be an edge‐colored graph on vertices. The minimum color degree of , denoted by , is defined as the minimum number of colors assigned to the edges incident to a vertex in . In 2013, Li proved that an edge‐colored graph on vertices contains a rainbow triangle if . In this paper, we obtain several estimates on the number of rainbow triangles through one given vertex in . As a consequence, we prove counting results for rainbow triangles in edge‐colored graphs. One main theorem states that the number of rainbow triangles in is at least , which is best possible by considering the rainbow ‐partite Turán graph, where its order is divisible by . This means that there are rainbow triangles in if , and rainbow triangles in if when . Both results are tight in the sense of the order of the magnitude. We also prove a counting version of a previous theorem on rainbow triangles under a color neighborhood union condition due to Broersma et al., and an asymptotically tight color degree condition forcing a colored friendship subgraph (i.e., rainbow triangles sharing a common vertex).

Physicochemical Characteristics of Cream Cheese Based on Different Ratios of Bromelin Enzyme and Rennet Enzyme

Milk belongs to the food group that is readily ruined and provides complete nutrients; therefore, adequate processing is necessary to extend its shelf life. One of the most popular dairy products is cream cheese. This cream cheese has a soft texture, a white color, and a savoury flavour. It can be used as a topping or a complimentary element. This objective of this study was to determine the differences effect in the ratio of bromelain and rennet enzymes on the physicochemical characteristics of cream cheese. The experimental design used in this research was a Completely Randomized Design (CRD) with the following treatments: 8% bromelain enzyme (P1); 8% rennet enzyme (P2); bromelain enzyme 7% + rennet enzyme 1% (P3); bromelain enzyme 4% + rennet enzyme 4% (P4); 1% bromelain enzyme + 7% rennet enzyme (P5) where each treatment will be repeated 3 times. Some of the parameters tested were yield, pH, water content, protein content, color degree and spreadability. Based on the effectiveness test to determine the best treatment, the highest value was obtained for the P4 treatment with a yield of 11.14%, pH value of 5.83, water content of 55.50%, protein content of 5.62%, color degree of 78.21, and spreadability of 3.50 cm.

Effect of metal chalcogenides on modifying the structural and optical properties of ZnWO4 nanostructure

Hydrothermal and thermolysis techniques were used to create ZnWO4 and 0.9ZnWO4-0.1MS (M = Cd, Zn, Pb) samples. The formed phases in each sample and their structure and microstructure were examined using Raman spectroscopy, Fourier-transform infrared spectroscopy and Rietveld refinement of Synchrotron x-ray diffraction data. The composition and morphology of the formed samples were investigated via scanning electron microscopy and energy-dispersive X-ray spectroscopy (EDS). The average crystallite size remains relatively constant regardless of the different metal chalcogenides. MS/ZnWO4 samples have two distinct morphologies. The UV diffuse reflectance spectroscopy (UV-DRS) technique is used to investigate the linear and nonlinear optical parameters for different samples. Alloying ZnWO4 with CdS or PbS affects the photo response region of the sample to include visible light. MS/ZnWO4 (MS=CdS, ZnS, PbS) samples have optical band gap values of 2.56, 2.43, 2.99 and 3.1 eV, respectively. The CdS/ZnWO4 and ZnS/ZnWO4 samples exhibit the highest refractive index and optical dielectric constant values within the visible range. CdS or PbS/ZnWO4 samples show the highest nonlinear optical parameters values within the visible range. The impact of MS samples on the photoluminescence emission of ZnWO4 was explored. The CIE chromaticity diagram reveals that MS/ZnWO4 (M = Zn and Pb) samples display a different degree of blue color while CdS/ZnWO4 sample reveals green-yellow colors.

Influence of structure-forming recipe ingredients on the quality of pumpkin marmalade

Analyzing the assortment of the market for marmalade products, it is worth noting that there is a tendency to introduce natural products in the form of vegetable or fruit puree into the recipe composition, as the demand for confectionery products for therapeutic, prophylactic, and functional purposes, as well as for products with dietary properties, is growing. This work aims to study the influence of structure-forming recipe ingredients on the quality of pumpkin jelly marmalade. Pumpkin puree was used as the primary raw material for producing jelly marmalade, food agar was used as a gelling agent, and natural honey was used as a sweetener. During the study, organoleptic, physicochemical, and microbiological quality indicators of semi-finished pumpkin products and finished marmalade samples were determined. The color assessment of the finished products was carried out using a colorimeter NR-UO (China). Pumpkin semi-finished and finished products meet regulatory documentation requirements regarding organoleptic, physico-chemical, and microbiological quality indicators. When food agar is used as a gelling agent, the degree of color increases due to the transparency of the structure, and the red (+a*) and yellow (+b*) components in samples containing food agar are successfully combined and give the finished product an attractive orange color. To increase the nutritional -value, it is proposed to use cinnamon or coconut flakes, which have beneficial properties, to sprinkle the surface of finished products. The price for 1 kg of pumpkin jelly marmalade was: control sample - 335.46 rubles, “Məkhəbbət” with cinnamon - 748.85 rubles, “Məkhəbbət” with coconut flakes - 725.36 rubles. For a new type of confectionery products, regulatory and technical documentation STO, TI, RC 00493497-005-2022 “Halal” pumpkin jelly marmalade “Məkhəbbət” has been drawn up.

TAL1-mediated regulation of hemocyte proliferation influences red blood phenotype in the blood clam Tegillarca granosa

Red blood phenotype, indicating the degree of red color in blood or hemolymph, is a significant economic trait in Tegillarca granosa, closely associated with its health condition and nutritive value. However, the molecular regulatory processes that account for the variation in the blood clams' red blood phenotype remain largely unexplored. In our previous studies, weighted gene co-expression network analysis (WGCNA) showed that TAL1 exhibits high intramodular connectivity in red blood-related module. Furthermore, TAL1 serves as a critical transcription factor in the survival and quiescence of hematopoietic stem cells, along with being essential in the terminal maturation processes in vertebrates. Consequently, we investigated the function of the TAL1 in blood clams by conducting a comparative analysis between high total hemocyte count (HTHC: THC ≥ 14 × 104 cells/μL) and low total hemocyte count (LTHC: THC ≤ 2.5 × 104 cells/μL) groups, as well as between negative control and Tg-TAL1 RNA interference groups of blood clams. The results revealed that, compared to LTHC group, there was a significant upregulation of TAL1 mRNA and protein expression levels in the HTHC group, which may be a crucial factor contributing to the alterations observed in THC. RNA interference of the TAL1 in blood clams resulted in a significant decline in THC, causing the blood color to become lighter. EdU staining experiments further confirmed a diminished cell proliferative vitality within T. granosa gills after TAL1 knockdown. Moreover, immunohistochemical analysis and immunofluorescence assays revealed a gradual escalation in TAL1 protein expression and cytoplasmic/nuclear ratio from gill filament chamber endothelial cells to gill filament chamber cells in gills, potentially representing different cell types in the maturation process of erythrocytes in blood clams. It suggesting that the gills might act as one of the hematopoietic tissues in blood clams, with hemocytes potentially originating from the gill filament chamber endothelium of the gills through division and differentiation. This research improves comprehension of the molecular mechanisms behind the variation in T. granosa's red blood phenotype, potentially assisting in the selective breeding of high THC T. granosa populations.

Effect of various beverage immersions on the color stability and degree of cure of two types of dental resin composite materials: An in vitro study

Effect of various beverage immersions on the color stability and degree of cure of two types of dental resin composite materials: An in vitro study

(224) The Use of an Acellular Dermal Matrix for Peyronie’s Plaque Excision and Grafting

Abstract Introduction The optimal surgical approach for severe Peyronie’s disease (PD) and the ideal grafting material are debatable. Acellular dermal matrices (ADM), among other graft materials that have been reported in the literature, are ideal candidates for graft choice due to the ability to retain structural integrity during the healing process and low immunoreactivity levels. Their use remains novel and only a few small studies have described outcomes of ADM grafting for PD. Objective The current study reports on the largest cohort of patients in the literature undergoing PEG with ADM (FlexHD Pliable). Methods After IRB approval, we reviewed the medical records of all patients undergoing PEG with Flex HD Pliable at our institution between the period of 2014 to 2023. A total of 52 patients with PD underwent PEG with FlexHD Pliable graft, with or without simultaneous inflatable penile prosthesis (IPP) insertion. Preoperative urological assessment of plaque was undertaken using penile color duplex ultrasound (PNUS) and degree of angulation and calcifications were recorded. All patients underwent surgery by a single surgeon. Results Patient’s age was 59.1+/-8.4 (43 to 81) years old. Dorsal curvature was recorded in 46.2% of patients, 23% had lateral, 13.5% had ventral and 17.3 % of patients had a combined curvature. Average penile curvature was 61+/-16 degrees (range 30-90 degrees). Hourglass deformity was recorded in 29.4% of cases; plaque calcification was confirmed on PNUS. The mean time between onset of curvature and surgical treatment was 25±37.9 months (range: 1-204 months). 19.2% patients failed intralesional treatment with Xiaflex prior to surgery and 4% had prior surgical treatment. In 75% of cases, simultaneous IPP placement was performed and in 25% of cases we performed PEG with FlexHD Pliable grafting only. Mean operative time for PEG was 114±22 minutes and simultaneous IPP placement prolonged the average operative time to 147±38 minutes. The average defect size was 21±8.3 cm2 (range: 4-48 cm2). A complete curvature correction was achieved in 90.4% and 9.6% had an average residual curvature of 11.25 °±4.8° (range: 5 ° -15 °). Eight patients (15.4%) reported postsurgical complications. Among them, two patients (3.8%) with altered penile sensation. One patient reported absence of sensation at the tip in the right mid glans; a decreased sensation at the ventral part of the penile shaft was recorded in the second case. There was one case of reactive hydrocele following IPP placement (2%) and five patients (9.6%) developed hematomas: 2 subcapsular graft hematomas required needle aspiration under PNUS guidance, a left spermatic cord hematoma and two penile hematomas that resolved spontaneously. Recurrent curvature onset was recorded in 4 patients (7.7%), but only 2 (3.8%) required re-operation. None of the patients suffered from infection-related complications. Conclusions Our results demonstrate the largest experience with ADM grafting for PD in the literature. PEG with FlexHD Pliable is a safe alternative to other commercially available grafting materials with a low complication rate. In the absence of a gold standard treatment for PD grafting materials, FlexHD Pliable is a practical and valuable option for this surgery. Disclosure Any of the authors act as a consultant, employee or shareholder of an industry for: Coloplast, Irrimax.

Physical properties and ash content of post-fire Sumatra coastal peat soil in Sei Kepayang District, Asahan Regency, North Sumatra

Fires in peatland have numerous detrimental effects as regards degradation of the environment especially changes of soil properties. The purpose of this study is to ascertain how drying and rewetting peatlands affects the physical and chemical characteristics of post-fire peat soil with two depths. This research was carried out in Dusun XIII, Perbangunan Village, Sei Kepayang, Asahan Regency. The factor was drying and re-wetting of the past fire peatland, namely: unburnt peat in wet conditions (P-nw), post-burnt peat in dry conditions (P-bd), and post-burnt peat in wet conditions (P-bw) within 2 tiers namely: 0-30 cm and 30-60 cm respectively. This research data analysis used a descriptive method presented through tables and graphs. The findings indicate that post-fire peat experience changes in moisture content, degree of decomposition, bulk density, soil color, and ash content. In conclusion, there are changes in peat properties in post-fire peat due to drying and rewetting.

Robust face recognition using quaternion interval type II fuzzy logic-based feature extraction on colour images.

In this paper, we propose a new robust and fast learning technique by investigating the effect of integration of quaternion and interval type II fuzzy logic along with non-iterative, parameter free deterministic learning machine (DLM) pertaining to face recognition problem. The traditional learning techniques did not account colour information and degree of pixel wise association of individual pixel of a colour face image in their network. Therefore, this paper presents a new technique named quaternion interval type II based deterministic learning machine (QIntTyII-DLM), which considers the interrelationship between three colour channels viz. red, green, and blue (RGB) by representing each colour pixel of a colour image in quaternion number sequence. Here, quaternion vector representation of a colour face image is fuzzified using interval type II fuzzy logic. This reduces the redundancy between pixels of different colour channels and also transforms colour channels of the image to orthogonal colour space. Thereafter, classification is performed using DLM. Experiments performed (on four standard datasets AR, Georgia Tech, Indian, face (female) and faces 94 (male) face datasets) and comparison done with other existing techniques proves that the proposed technique gives better results in terms of percentage error rate (reduces approximately 10-12%) and computational speed.

Preventive Effects of Laser Irradiation and Dentin Bonding Agent Application on Tooth Discoloration Induced by Mineral Trioxide Aggregate

The aim of the present study was to evaluate the effect of the pre-application of dentin bonding agent and laser application on the prevention of tooth discoloration caused by (MTA) in the presence of blood. Fifty extracted human anterior teeth were prepared by standardizing root lengths to 10 mm and shaping root canals. Specimens were divided into five groups (n = 10) based on the treatment applied to the pulp chamber dentin wall: Group 1/no surface treatment; Group 2/Optibond FL; Group 3/Clearfil SE; Group 4/Optibond Universal adhesive application; Group 5/Nd:YAG laser application. Root canals were filled with fresh human blood below the cemento-enamel junction (CEJ), followed by ProRoot MTA, and collagen barrier placement. Color changes were monitored using a spectrophotometer at 0, 7, 30, 90, and 180 days post MTA placement. Color differences (∆E) were calculated and analyzed using two-factor mixed-design ANOVA with Sidak adjustment at p = 0.05. The degree of coloration increased with time within each group (p < 0.05). No significant differences were observed between Optibond FL and Optibond Universal within each time interval, or between Clearfill SE Bond and the control group (p > 0.05). When compared to the control group, the Nd YAG group exhibited the least degree of discoloration in all time intervals (p < 0.05). Although the Nd:YAG laser had promising results, none of the methods can guarantee a 100% prevention of discoloration resulting from tooth discoloration caused by MTA-blood contact.

Baked sorghum tortilla chips: effects of baking conditions on physicochemical properties

SummaryWholegrain sorghum (Sorghum bicolor) is nutritious and gluten‐free. Despite its health benefits, the potential for wholegrain sorghum to be incorporated into a large range of food products in Western countries is yet to be realised. In this study, we developed oven‐baked sorghum‐based tortilla chips to create a healthy sugar‐free product for the snack market. Tortilla chips were made separately with flour from white sorghum (cv. Liberty) and a red sorghum (cv. Taurus), each mixed with corn flour (85:15% w/w) to give a gluten‐free product, as well as a corn‐wheat control (85:15% w/w). Three parameters for the baking process were varied: dough sheet thickness (0.95 and 1.45 mm), baking temperature (160 and 180 °C) and baking time (2 and 4 min). Physicochemical properties of the tortilla chips were then determined: moisture content, water activity, degree of puffiness, colour and texture parameters. Dough sheet thickness had significant effects on tortilla chip quality, although baking time and temperature had the greatest effects. Increasing temperature and time decreased moisture content, water activity and degree of puffiness, but increased hardness, fracturability and brownness index. Among those tested, the best conditions for preparing sorghum tortilla chips were dough sheet thickness of 0.95 mm, baking temperature of 160 °C and baking time of 4 min. The properties of the white sorghum tortilla chips were closer than the red sorghum tortilla chips to those of the corn‐wheat control. The sorghum tortilla chips developed are a healthy gluten‐free snack with favourable physiochemical properties.

Features of the physiological state and color of the rainbow trout <I>Oncorhynchus mykiss</I> (salmonidae) using the feed additive «AstaPet 10%» in specialized trout feed

The article presents generalized results of the experimental rearing of two-year-old rainbow trout using specialized trout feed by LLC «PROMETRIKA» in the conditions of the pool workshop of the scientific and production base Dukhovnitskoye Fish Farm (R. Dukhovnitskoye, Saratov Region) in 2022. An assessment of changes is given morphophysiological characteristics of fish and commercial qualities, mainly the degree of coloration of muscle fibers, with the help of which the efficiency of using the experimental feed with the content of the feed additive «AstaPet 10%» was determined. On the basis of the data obtained, it can be concluded that the use of this preparation, which enhances the color intensity of fish tissues in the feed of LLC «PROMETRIKA», has a positive effect, which allows us to recommend this preparation for use in factories for the production of feed for trout and, later on, in fish breeding enterprises engaged in their production grow.

A wet bacterial cellulose film self-anchored by phosphotungstic acid: Flexible, quick-response and stable cycling performance for photochromic application

Bacterial cellulose (BC) has been recognized as an ideal supporter owning to its abundant hydroxyl groups on the surface. In this work, Keggin-type phosphotungstic acid (H3PW12O40, PWA) is self-anchored on the three-dimensional network of BC by a simple diffusion method at room-temperature. BC fibers can protect the well-dispersed PWA with high transparency, high mechanical strength, and high stability. When PWA/BC serves as a photochromic material, the coloration time and bleaching time are only 3 min and 30 min respectively. After 6 cycles, the photochromic ability of the PWA/BC composite film almost unchanged. At the same time, we convert the coloration and bleaching degree into quantitative data including a color difference calculation of ΔE2000 and the remaining degree of color (RC%). Within the BC system, PWA exhibits a special linear relationship between RC% and bleaching time (0–30 min). The processes of PWA/BC reduction (W6+→W5+) and oxidation (W5+→W6+) are analysed by photo-electrochromic, XPS and ESR characterizations. The revealed excellent photochromic properties of soft PWA/BC films highlight their potential as the photoresponsive materials.