Gamma radiation technology to modify the various characteristics and properties of natural fiber reinforced polymer composites has been utilized at a vast rate. In the present study, composites of recycled-polypropylene reinforced with bio-waste Delonix regia pods have been prepared via extrusion and injection moulding and irradiated with gamma dose. A total of 9 experiments having 3 levels (10 wt%

Curium targets are irradiated in high-flux reactors to produce californium-252 (Cf-252). Thermalized neutron spectrum is favorable for Cf-252 production, so traditional methods deploy moderators around the curium targets to optimize the neutron spectrum. However, using moderators alone cannot achieve fine spectrum optimization, and does not necessarily result in better Cf-252 production. We conducted

(K,Rb)2CuBr3 crystals were fabricated by the slow cooling method, and their photoluminescence (PL) and scintillation properties were examined. Emission bands were observed at 350–550 nm under UV and X-ray irradiation. PL quantum yields of K2CuBr3, (K0.25,Rb0.75)2CuBr3, (K0.5,Rb0.5)2CuBr3, (K0.75,Rb0.25)2CuBr3, and Rb2CuBr3 were respectively 75.8, 71.0, 82.3, 96.9, and 96.3%. The scintillation decay

The interactions of low energy He and Ar ions with pure W target were simulated by a new Monte-Carlo (MC) based computer code which was designed to insure maximum accuracy. For these irradiation systems, incident ions projected ranges in the target material, sputtering yield, and the percentage of backscattered ions at various incident energies were studied. furthermore, the effect of the angle of

In this work, we have investigated the performance of a 4H–SiC radiation sensor in the temperature range from 25 °C to 450 °C to explore its compatibility as detector of fast ion losses in plasma diagnostic of future nuclear fusion reactors. To simulate the escape of fusion-born alpha particles in D-T (deuterium-tritium) fusion plasmas, spectroscopic measurements were carried out in a vacuum chamber

47Sc could be used in SPECT imaging and is also suitable for targeted therapy of small tumors. Application of 47Sc is quite promising as theranostic with its diagnostic pair 44Sc or 43Sc. Excitation functions for the production of 47Sc and its accompanying impurities through proton bombardment of natural calcium carbonate (natCaCO3) targets were experimentally evaluated and compared with both previous

Radiation-induced graft polymerization is widely used in the synthesis of polymeric materials with various functionalities; however, the details of the reaction mechanism are still unresolved. Herein, the initial stage of the graft polymerization reaction was investigated through atomic force microscopy (AFM). We used glycidyl methacrylate (GMA) in methanol (monomer solution) and a high-density polyethylene

The objective of this investigation was to assess the computed tomography dose index (CTDI) for various tube potentials utilizing epoxy and polyester-resin phantoms, and compare the results to those obtained from a standard polymethyl methacrylate (PMMA) phantom, employing the GEANT4/GATE simulation framework. Three cylindrical phantoms with a diameter of 32 cm were simulated from epoxy resin, polyester

A model of the 60Co gamma irradiation facility in Croatia has been developed using the Monte Carlo code PHITS for particle transport. For the high dose rate area (i.e. inside the source rack), the calculated dose rate distribution was compared with the measurements performed with the chemical ethanol-chlorobenzene dosimeters and good agreement was observed with a relative difference of up to 6%. For

Proton-boron capture therapy (PBCT) has been proposed as a new method to enhance effectiveness of proton therapy. There is, however, no consensus on its potential effectiveness. Most theoretical studies have been done at a macroscopic level. At cellular dimensions, however, the dose ratio with PBCT can be strongly favourable due to proton-boron reactions. The goal of this study was to investigate the

We developed a cellulose upgrading method based on electron beam processing technology by using a carbon-carbon double bond-containing ionic liquid as an auxiliary reagent. The irradiation of cellulose was implemented by a 10 MeV high-energy electron accelerator or a 200 keV low-energy electron accelerator. The established method enabled grafting of the ionic liquid onto cellulose while triggering

The varied radiological applications of tissue equivalent (TE) materials encompass quality checks, diagnostic imaging, and dose evaluations. However, the availability of compounds representing paediatric patient tissues for scientific use in lower diagnostic photon energy spectra is limited. In this study, several TE substitutes were developed to replicate the radiographic characteristics of neonatal

Seven bioactive glasses in the system (50-x) B2O3–4P2O5–26CaO–20Na2O-xZnO: (x = 0–15 mol%) have been produced using melt quenching route. The prepared samples coded as BG1-BG7. The physical properties, average optical basicity, electronegativity, electronic polarizability, and radiation attenuation competence of the BG1-BG7 glasses have been examined. Non-crystalline state of samples confirmed via

The physical, structural, mechanical, and radiation (gamma photon and neutron) shielding properties of CRT screen glass and Bi2O3 mixtures are presented in this study with the aim of adopting them as cheap, transparent, and environmentally safe glass shields for radiation protection purposes. Bi2O3-doped CRT screen glass samples are prepared by the ball milling and cold press methods and coded as TVS

A solution using a gamma-ray beam to measure the thickness of materials with different elemental composition is necessary as this issue has not been previously addressed. Traditionally, a linear calibration curve is only utilized to determine the thickness of a specific material. This means that multiple separate calibration curves must be used when measuring the thickness of different types of materials

Irradiated fig pomace pyrochar (IrrPyrFP) is noteworthy as a novel sterilized low-cost sorbent of BTEX, pesticides, and Pb2+ ions. It was produced by applying pyrolysis treatment followed by gamma irradiation modification in order to obtain a highly efficient and sterile sorbent. The characterization of fig pomace before and after pyrolysis, as well as before and after irradiation of the obtained pyrochar

77Br (T1/2 = 57 h) is an important auger electron emitter used in internal radiotherapy. For the cyclotron production of 77Br, the charged particle induced reactions namely 75As(α,2n)77Br, 77Se(p,n)77Br, 78Se(p,2n)77Br, and 80Se(p,4n)77Br were critically evaluated. Literature experimental data were normalized according to the modern standard of the decay data and monitor reactions. Three nuclear model

One of the most effective methods for producing radioisotopes aimed at Nuclear Medicine applications, such as 99mTc and 99Mo, is to use a compact proton accelerator located near hospitals. Target utilization efficiency is a critical factor in the production of these isotopes, through the 100Mo(p, 2n)99mTc and 100Mo(p, pn)99Mo nuclear reaction routes. To maximize the utilization efficiency, a multi-layer

Aims Microdosimetric indicators are commonly used to describe the energy deposition characteristics of ionizing radiation at the subcellular and DNA levels to predict radiation-induced biological effects. Monoenergetic electrons and beta-emitting radionuclides (β nuclides) have a certain range in low-density media, and their microdosimetric indicators in the cell nucleus are of great significance for

High energetic gamma rays are used in different fields and thus it may cause high risks for public if it is absorbed over limited dose. In order to be protected from these hazardous effect of radiation, the shielding is an effective ways and this requires shielding materials. For this purpose the gamma radiation shielding parameters for four different types glasses which was formulated as (25-x)Ca

Sodium borophosphate parent glass in conjugation with other derived samples containing adaptable amounts of bismuth oxide at the expense of phosphate partner was prepared via the ordinary melt-quenching technique. Synthesized samples were investigated using Fourier transforms infrared (FTIR) spectroscopy. The undercover or overlapped peaks were estimated using the deconvolution analysis technique (DAT)

In this study, the gamma-ray attenuation properties and transmission factors of different types of glasses formed in the (B2O3)x[(ZnO)0.60-(SiO2)0.40]1-x system as a function of increasing heavy metal oxide ratio were investigated. For transmission factor and absorption coefficient calculations, the general-purpose Monte Carlo code MCNPX (2.7.0) was used. In addition, the Phy-X/PSD code is used to

This study was conducted to evaluate the influence of evaporation and gamma irradiation on physicochemical characteristics, antibacterial properties, and antioxidant activity of selected high-quality herbal honey (SH3), an Indonesian traditional herbal medicine recipe. Treatments consisted of untreated sample, evaporated SH3, irradiated SH3, and evaporated-irradiated SH3. Gamma irradiation dose of

The chronology study of river terraces is important to reconstruct the history of regional climate change and tectonic uplift. Due to greater signal dose saturation levels, electron spin resonance (ESR) dating became as a potentially powerful tools for the chronology of Middle Pleistocene terraces. In this study, two profiles of terrace fluvial sediments from the Sanggan River Canyon were dated using

In this study, the TL dosimetric properties of α-Al2O3:C dosimeters were investigated within the diagnostic radiology energy range, using different radiation sources (beta, gamma, and X-ray). The TL glow curve kinetic parameters of the dosimeter were calculated using different methods such as initial rise, fractional glow, various heating rates and numerical methods of computerized glow curve deconvolution

Radiation transmittance properties of the functionally graded hybrid composite material with B4C + TiO2 at various proportions were analyzed using the Phy-x/PSD software. The parameters of mass attenuation coefficient and linear attenuation coefficient, tenth-value layer and half-value layer, mean free path, effective atomic number, exposure building factor, electron density, fast neutron removal cross-section

With the performance improvement of soft contact lenses (SCLs) over the past few decades, their global use and market have steadily expanded. Consequently, contamination by disposable SCLs has become a potential threat to the environment. From the perspective of sustainable development goals, overcoming this issue requires the development of new biodegradable SCL materials based on plant-derived cellulose

In this study, a realistic model was employed to research the LiF:Mg:Ti behavior (commercially known as TLD-100), a widely employed as thermoluminescent (TL) material in dosimetry services. The research was focused on exploring the association between the Figure of Merit (FOM) function and deviations from the true kinetic parameter values, that were obtained through fitting experimental measures. FOM

Ionic polymer-metal composites (IPMC) actuators were fabricated by applying ionic exchange groups such as sulfonic acids and carboxylic acids using EB graft-polymerization to two types of fluorine-based copolymers (Poly (tetrafluoroethylene-co-hexafluoropropylene): FEP and Poly (ethylene-co-tetrafluoroethylene): ETFE) as base materials, and then forming electrodes with Pt-Pd by sputtering. The physical

Workers occupationally exposed to ionizing radiation, including nuclear medicine workers, are one of the groups at higher risk of a radiation cataract. Reducing the lens dose limit from 150 mSv/year to 20 mSv (averaged over defined periods of 5 yrs, or 50 mSv in 1 yr) makes other risk factors less obvious. The presented work is a review of the literature not only in the scope of the most obvious risk

Luminescence studies focusing on sodium chloride crystals have been conducted in various parts of the world, including Brazil, India, Greece, Türkiye, Australia, Spain, and Poland. This material shows great promise in the field of dosimetry, as it has demonstrated high sensitivity, excellent reproducibility, a linear response, and a low minimum detectable dose. Moreover, it holds significant potential

The aqueous phase of DNA, which is more realistic phase due to the presence of H-bonds is studied in this work for various molecular processes upon electron impact. We report computed probabilities of various interaction processes taking place during the collision of electrons with DNA molecules, viz., Adenine, Guanine, Cytosine, Thymine and Uracil in their aqueous phase. Modified spherical complex

Irradiation of deaerated aqueous solutions containing Tl2SO4 and alcohols (CH3OH, C2H5OH, or (CH3)2СНOH) with accelerated electrons results in the formation of a colloidal solution of the metal, which gradually coagulates to form a microporous precipitate. The metal formation efficiency increases in going from CH3OH to C2H5OH and then to (CH3)2СНOH and with increasing pH of the solutions from 4.5 to

The choice of dosimetric materials for precise retrospective dose assessment in case of any emergencies is very challenging. Since few decades, electronic components like ceramic resistors, inductors, IC chips, surface mount resistors and inductors have been proven to be suitable candidates for dose estimation using thermoluminesce (TL)/optically stimulated luminescence (OSL) techniques. In this work

The shape of the dose-response curve (DRC) of the OSL signal in the high dose range limits the dating range. No agreement between natural and laboratory DRC for doses close to saturation is indicated in OSL dating using quartz. The natural curve rises slower to a saturation level that is clearly lower than the saturation level of the laboratory curve. The latter is often a sum of a single saturating

Recently, there has been arising a severe alert regarding climate crisis all over the world. As industrial production capacities have been soaring every passing day, the primary sources of the earth's crust have been depleting like there is no tomorrow. Sustainable and greener suggestions should be followed to overcome the upcoming catastrophic climate change. With this motivation, cement material

This paper presents a comprehensive investigation of the mechanical, elastic, and radiation shielding properties of glass systems comprising yCuOx + (100-y)P2O5, where y = 45, 50, and 55 mol%, and x = 1, 2, 3, or 4, representing different copper-valence-states (i.e., R(Cu+)=Cu+/(Cu++Cu++)). Three series of copper-phosphate glasses were synthesized, and their physical properties, including density,

Since 2020, breast cancer is the most common among women, and in South America, Brazil presents the highest rates. After mastectomy and breast reconstruction, commonly silicone breast implants are used to replace the removed breast tissue, and radiation therapy is performed to reduce its recurrence in the remaining tissues and nearby lymph nodes. The Monte Carlo simulation using the MCNP6.2 code accompanied

The stabilization efficiency of reduced graphene oxide (rGO) on the γ-irradiated styrene-isoprene-styrene copolymer (SIS) matrix is studied by chemiluminescence. The relevant protection effects of polymer against oxidation are obtained, when the inorganic phase is present in low concentrations (1, 2 and 3 wt%). The values of the characteristic kinetic parameters of degradation, namely oxidation induction

We prepared epoxy resin composites containing Sb2O3 and Al2O3 for radiation shielding applications, such as in the fields of nuclear medicine and medical radiation for both occupational and public radiation protection. The linear attenuation coefficient (LAC) was measured by a collimated gamma radiation technique with the use of a NaI(Tl) scintillation crystal detector. The density of the prepared

The present study aims to investigate the possibility of reducing the absorbed dose required to prepare a polymer nanocoating for surface functionalization by modifying the irradiation medium. We have studied the crosslinking of elaidic acid (EA), an unsaturated trans fatty acid, on oxidised copper by gamma irradiation. Three different irradiation media were compared: water purged with N2, water purged

High-Z nanoparticles incorporated in tumors have great potential to enhance radiotherapy treatments by increasing the absorbed radiation dose in the vicinity of the nanoparticle. However, current Monte Carlo simulations estimate dose enhancement metrics in 1D, neglecting the anisotropy of the energy deposition around the nanoparticle. This could have radiobiological consequences and affect treatment

The virtual image system is a key component of virtual clinical trials (VCTs) which can be utilized to evaluate and improve medical imaging devices. The main limitation of VCTs in the Chinese female breast is the lack of detailed structure in the breast model employed in the Chinese specification for testing of quality control in mammography. In this paper, based on Chinese female breast parameters

Metal-Organic Frameworks (MOFs) are nanostructured porous materials made up by metal cations and organic linkers forming three-dimensional structures. Since their discovery, the local properties of metal centers in MOFs have often been studied with hard X-ray absorption spectroscopy that is not a surface sensitive technique. Here, we employ the ambient-pressure soft X-ray absorption spectroscopy, using

This study aimed to investigate the dosimetric effect of various beam arrangements (BAs), for intensity-modulated radiotherapy (IMRT) in female thymoma patients. Six-field IMRT plans with three different BAs, named IMRTCA, IMRTCS, and IMRTNC were created for each patient. The couch angles of all fields were selected at 0°, which made the fields coplanar in the axial plane in IMRTCA plans. The couch

Purpose Due to the higher radiosensitivity of the tissues and the larger life expectancy in children than in adults, the present study presented the process of optimizing pediatric brain CT protocols, for the age groups 0 to 2 years, 3 to 5 years, and 6 to 12 years, evaluating the parameters of image acquisition and dose reduction, without loss of quality in image diagnostics. Methods: The CTDIvol

This paper presents simulation results of a single event burnout (SEB), for a hardened GaN metal-insulator-semiconductor field-effect transistor (MISFET), employing a dual channel p-type buried layer structure (DCP-MISFET). After irradiance with a heavy ion beam, the peak electric field around the gate channel was observed to move towards the drain channel. In addition, the electrons released by the

Measurement of complex dose distributions which typically occur in modern radiation therapy methods is demanding. One of the main difficulties arises from the volume averaging effect due to the extended size of the employed dosimeter. Although small-sized detectors such as solid state detectors are obviously best suited in such situations, ionization chambers are frequently used. The question then

Transition metal chemistry in solution is central to key processes in biology and catalysis. Achieving accurate knowledge on the structural and electronic properties of the relevant reaction intermediates requires the use of innovative and complementary spectroscopic probes. Herein, we combine X-ray Absorption Spectroscopy (XAS) and 1H-NMR to investigate the exchange reaction between two prototypical

Radiation-induced ligand destruction and concomitant degradation product formation is unavoidable under envisioned used nuclear fuel reprocessing conditions, and ultimately limits the recyclability of a given solvent system formulation. With this in mind, a novel approach to ligand innovation for advanced separations processes is in the design of tailored “protomolecules,” which when exposed to ionizing

Objective The measured dose was shown to be dependent on the angle of beam incidence and influenced by couch absorption when a 2D detector was used in a stationary phantom. The use of a 2D array (MatriXX) in combination with a solid water phantom (RW3) dose verification system was explored, which could take into account the couch absorption influences, generate correction factors (CFs) for each detector

PADC polymer sheets of thickness 650 μm were exposed to normal incident high energy ions of 7 GeV Si and 17.48 GeV Ni with particle density ≈ 103 particles/cm2. Chemical etching was carried out under soft and strong etching conditions, and parameters of track diameter and cone length variation with depths were measured and recorded at successive times during the etching process, including snapshots

The CR-39 track detector was used to create alpha particle tracks using molten hydrated barium hydroxide (MBH). In this experiment, seventeen CR-39 plates with a thickness of 250 μm were used. For determining the bulk etch rate, the rate of the change of track dimeter of fission fragments has been used. The detectors were etched at the suitable etching conditions of MBH, and the track diameters were

The present work aims to estimate and compare the etching parameters of Solid-state nuclear track detector (SSNTD) CN-85 with different etching techniques (Water bath, Ultrasound, Microwave, Oven and Plasma (Dry Etching)). CN-85 detectors were exposed in a direct contact to the sensitive face (notated face) for 15 s to alpha particles emitted from the radium-226 source (226Ra) of 4.87 MeV energy and

The thermoluminescence of GdAl3(BO3)4 (GAB) doped with various concentrations of Sm3+ (i.e. from 0.5 to 7 wt%), prepared by gel combustion, was studied. TL glow peaks at 78 °C and 225 °C are observed. The intensity of the glow peak at 225 °C increased with a faster heating rate. To gain insight into the trap activation energies, the methods of Hoogenstraaten and Booth-Bohun-Parfianovitch were used

Radiocarbon (C-14), which is released from irradiated stainless steels, is one of the key radionuclides in radioactive waste disposed at an intermediate depth. It is important to understand the chemical species of C-14 under an intermediate-depth disposal condition (high alkalinity, low oxygen concentration, gamma-ray irradiation) for safety assessment. In this study, the stability and degradation

Functional starch-based films are promising materials being developed at different laboratories. Native and modified starches are two materials being employed for this purpose. Chemical modification of starch generally involves esterification, etherification, or oxidation of the units that make up the starch polymers. Ozone constitutes an advanced oxidation technology for starch modification. In this

In this journal, a paper discussing reviewing progress in radiation technology was published twenty years ago. The paper has been cited over 100 times. Nowadays written review paper is following the structure adopted in the mentioned first publication. It is a critical appraisal of the progress in the engineering of radiation sources, processing systems, technology application for sterilization, food

Particle Induced X-ray Emission (PIXE) spectroscopy is an effectively well-established analytical technique in the low projectile mass (Z < 3) regime. This is in part due to the availability of fairly accurate theoretical models of fundamental interaction parameters such as the X-ray production cross section (XPCS). Continual development of widely used theoretical models such as the ECPSSR theory with