Your search keyword '"Electron-beam"' showing total 167 results

1. Effect of gamma-ray and electron-beam irradiation on the structural changes and functional properties of edible insect proteins from Protaetia brevitarsis larvae

Author

Hoon Lee, Jae, Kim, Yea-Ji, Choi, Yoo-Jeong, Kim, Tae-Kyung, Yoon Cha, Ji, Kyung Park, Min, Jung, Samooel, and Choi, Yun-Sang

Published

2024

2. Effect of intra‐build design parameters on the fracture toughness properties of Electron Beam Melted Ti6Al4V.

Author

Mojib, Naghmeh Melody, Fero, Kaan, Atmadja, Nicole, Arola, Dwayne, Chen, Xu, and Ramulu, M.

Subjects

*FRACTURE toughness testing, *ELECTRON beam furnaces, *FRACTURE toughness, *FRACTURE mechanics, *EXPERIMENTAL design

Abstract

Metal additive manufacturing technologies provide new opportunities for manufacturing complex components. However, the limited data on fracture behavior are delaying adoption in safe‐critical applications. This paper aims to evaluate the effect of orientation and the intra‐build design parameters on EBM Ti6Al4V fracture toughness using a design of experiments. Three builds comprised of over 150 compact tension samples were printed representative of the EBM build chamber, followed by microstructural characterization, X‐ray microcomputed tomography, and fracture toughness testing per ASTM E399. The average fracture toughness was 65 MPa√m, with anisotropy as the largest source of variation due to crack growth behavior with respect to the build direction. Microstructure coarsening was observed with increase in height, resulting in an increase in fracture toughness, irrespective of sample geometry or orientation. Build orientation and sample location influenced the microstructure and fracture toughness and should be considered when adopting EBM components in load‐bearing applications. Highlights: The effect of intra‐build parameters on EBM Ti6Al4V fracture toughness is investigated.The fracture toughness reported 10% variation, comparable to cast and wrought alloys.Response surface methodology helped identify factors effecting fracture toughness.Anisotropy was the biggest source of variation, affected by build orientation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Treatment outcomes of surgery followed by short-course every other day radiotherapy in keloid

Author

Wei Zhou, Bing Li, Yutian Yin, Lihua Zhang, Yan Zhou, Lin Xu, Jian Zang, and Lina Zhao

Subjects

Keloid, Postoperative radiotherapy, Electron-beam, Local control, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Postoperative radiotherapy can significantly reduce keloid recurrence. However, consensus on the optimal radiotherapy dose and treatment schedule remains elusive. This study aims to evaluate the effectiveness of surgery followed by a short-course of radiotherapy administered every other day for keloid treatment. Materials/Methods We conducted a retrospective analysis of 498 patients with keloids treated at our institution between January 2010 and December 2017. All patients underwent electron beam irradiation at a dose of 16 Gy, delivered in four fractions every other day, starting within 24 h post-surgery. The primary endpoint of the study was the local control rate. Results A total of 130 (26.5%) keloids recurred after a median follow-up of 68.1months (42.6-129.9 months). The local control rates at 1 year, 3 years and 5 years for all patients were 89.5%, 82.5% and 81%, respectively. The highest recurrence rate was observed in keloids located in the chest region (50.8%), followed by the suprapubic (47.8%), head and neck (38.8%), limbs (33.3%) and ear (14%). Both multivariate and univariate analyses identified the presence of pain and or pruritus as an independently prognostic factor for keloid recurrence (p

Published

2024

4. Treatment outcomes of surgery followed by short-course every other day radiotherapy in keloid.

Author

Zhou, Wei, Li, Bing, Yin, Yutian, Zhang, Lihua, Zhou, Yan, Xu, Lin, Zang, Jian, and Zhao, Lina

Abstract

Background: Postoperative radiotherapy can significantly reduce keloid recurrence. However, consensus on the optimal radiotherapy dose and treatment schedule remains elusive. This study aims to evaluate the effectiveness of surgery followed by a short-course of radiotherapy administered every other day for keloid treatment. Materials/Methods: We conducted a retrospective analysis of 498 patients with keloids treated at our institution between January 2010 and December 2017. All patients underwent electron beam irradiation at a dose of 16 Gy, delivered in four fractions every other day, starting within 24 h post-surgery. The primary endpoint of the study was the local control rate. Results: A total of 130 (26.5%) keloids recurred after a median follow-up of 68.1months (42.6-129.9 months). The local control rates at 1 year, 3 years and 5 years for all patients were 89.5%, 82.5% and 81%, respectively. The highest recurrence rate was observed in keloids located in the chest region (50.8%), followed by the suprapubic (47.8%), head and neck (38.8%), limbs (33.3%) and ear (14%). Both multivariate and univariate analyses identified the presence of pain and or pruritus as an independently prognostic factor for keloid recurrence (p<0.0001). The local control rates at 1-year, 3-years and 5-years for patients with or without symptom of pain or pruritus were 45% vs. 98.8%, 12.5% vs. 95.9%, and 8.8% vs. 95%, respectively (HR:37.829, 95%CI: 24.385–58.686, p<0.001). In the ear keloid subgroup, the 1-year, 3-year and 5-year local control rates for patients with pruritus were significantly lower than those without pain or pruritus (60.0% vs. 97.9%, 26.7% vs. 94.7%, 26.7% vs. 94.3%, HR:30.209, 95% CI:14.793–61.69, p<0.001). The same results were found in other location(p<0.001). During treatment and follow-up, two patients experienced infections, and one patient developed a cutaneous fibroblastoma. Conclusion: This study suggests that a combination of surgery followed by short-course, every-other-day radiotherapy can yield satisfactory local control rates for keloids. Pain and or pruritus symptom was an independently prognostic factors for recurrence of keloid. To further validate these results, a prospective randomized controlled trial is recommended. [ABSTRACT FROM AUTHOR]

Published

2024

5. Tip-Induced 3D Printing on the Nanoscale with Field Emission Scanning Probes.

Author

Holz M, Hofmann M, Allen FI, Weigel C, and Strehle S

Abstract

3D printing down to the nanoscale remains a significant challenge. In this paper, the study explores the use of scanning probes that emit low-energy electrons (<100 eV) coupled with the localized injection and electron-induced decomposition of precursor molecules, for the precise localized deposition of 3D nanostructures. The experiments are performed inside the chamber of a scanning electron microscope (SEM), enabling the use of the in-built gas injector system (GIS) with gaseous naphthalene precursor for carbon deposition, as well as immediate inspection of the deposits by SEM. Substrate materials are planar fused silica with thin conductive coatings and non-planar copper wedges. After investigation of the deposition process parameters, various 2D and 3D carbon deposits are grown. Vertical nanowires several microns in length with a diameter <100 nm are achieved and 3D deposits with a high degree of nanoscale branching are also obtained, presumably due to a charging effect. High aspect ratio carbon nanostructures such as those demonstrated here can be employed as miniaturized electrodes or field emitters. The tip-based approach presented thus paves the way toward 3D nanoscale printing of various materials and functional nanostructures., (© 2024 The Author(s). Small published by Wiley‐VCH GmbH.)

Published

2024

6. Locally controlled MOF growth on functionalized carbon nanotubes

Author

Dzinnik, Marvin J., Akmaz, Necmettin E., Hannebauer, Adrian, Schaate, Andreas, Behrens, Peter, Haug, Rolf J., Dzinnik, Marvin J., Akmaz, Necmettin E., Hannebauer, Adrian, Schaate, Andreas, Behrens, Peter, and Haug, Rolf J.

Abstract

Metal-organic frameworks (MOFs) are highly versatile materials because of their tunable properties. However, the typically poor electrical conductivity of MOFs presents challenges for their integration into electrical devices. By adding carbon nanotubes to MOF synthesis, a highly intergrown material with increased conductivity and chemiresistive sensing properties can be obtained. Here, we present a patterning technique to control MOF growth on predefined areas of one particular carbon nanotube. We found that electron beam pretreatment of -COOH functionalized multi-walled carbon nanotubes inhibits the growth of UiO-66 MOF on these multi-walled carbon nanotubes. By irradiating individual multi-walled carbon nanotubes, we show that MOF growth can be inhibited in predefined tube areas, creating MOF-free spaces on the nanotube. In this way, our method shows a possibility to pattern MOF growth on individual nanotubes.

Published

2024

7. Application of electron beam technology to decompose per- and polyfluoroalkyl substances in water.

Author

Londhe, Kaushik, Lee, Cheng-Shiuan, Grdanovska, Slavica, Smolinski, Rachel, Hamdan, Noor, McDonough, Carrie, Cooper, Charles, and Venkatesan, Arjun K.

Subjects

FLUOROALKYL compounds, PERFLUOROOCTANOIC acid, ELECTRON accelerators, WATER levels, SULFONIC acids, ELECTRON beams

Abstract

The widespread detection of per- and polyfluoroalkyl substances (PFAS) in environmental compartments across the globe has raised several health concerns. Destructive technologies that aim to transform these recalcitrant PFAS into less toxic, more manageable products, are gaining impetus to address this problem. In this study , a 9 MeV electron beam accelerator was utilized to treat a suite of PFAS (perfluoroalkyl carboxylates: PFCAs, perfluoroalkyl sulfonates, and 6:2 fluorotelomer sulfonate: FTS) at environmentally relevant levels in water under different operating and water quality conditions. Although perfluorooctanoic acid and perfluorooctane sulfonic acid showed >90% degradation at <500 kGy dose at optimized conditions, a fluoride mass balance revealed that complete defluorination occurred only at/or near 1000 kGy. Non-target and suspect screening revealed additional degradation pathways differing from previously reported mechanisms. Treatment of PFAS mixtures in deionized water and groundwater matrices showed that FTS was preferentially degraded (∼90%), followed by partial degradation of long-chain PFAS (∼15–60%) and a simultaneous increase of short-chain PFAS (up to 20%) with increasing doses. The increase was much higher (up to 3.5X) in groundwaters compared to deionized water due to the presence of PFAS precursors as confirmed by total oxidizable precursor (TOP) assay. TOP assay of e-beam treated samples did not show any increase in PFCAs, confirming that e-beam was effective in also degrading precursors. This study provides an improved understanding of the mechanism of PFAS degradation and revealed that short-chain PFAS are more resistant to defluorination and their levels and regulation in the environment will determine the operating conditions of e-beam and other PFAS treatment technologies. [Display omitted] • Degradation of per- and polyfluoroalkyl substances is influenced by e aq − abundance. • Perfluorobutane sulfonate displayed highest resistance to degradation. • Precursors of per- and polyfluoroalkyl substances were simultaneously oxidized. • Components of the sample matrix affected degradation trends. • Electrical energy per order values in water ranged from 45 to 504 kWh/m3/order. The degradation of a suite of PFAS by e-beam irradiation was studied and the degradation pathways were elucidated. Short-chain PFAS were highly resistant to degradation and required more energy to degrade. [ABSTRACT FROM AUTHOR]

Published

2024

8. Investigation of Junction Properties in CdS/CdTe Solar Cells and Their Correlation to Device Properties: Preprint

Author

Gessert, T

Published

2008

9. Effect of Electron-Beam Irradiation on Enzyme Activities in Agaricus brunnescens

Author

M. Adibian and Y. Mami

Subjects

agaricus brunnescens, electron-beam, irradiation, enzyme activity and postharvest, Microbiology, QR1-502

Abstract

This project was carried out to study the effect of five different doses of electron-beam irradiation, including: 0 as control, 1.5, 3.5, 5.5 and 7.5 kGy on peroxidase (POD), superoxide dismutase (SOD) and polyphenol oxidase (PPO) activities of brown button mushroom (Agaricus brunnescens). The experiment was conducted using an electron beam accelerator (ESS-010-03) and measurements were made during 1, 4th, 8th, 12th and 16th day storage at 4 °C and 80 percent relative humidity. There was a significant difference between irradiated and non-irradiated (control) mushrooms in different enzymes (P

Published

2018

10. Effect of Electron-Beam Irradiation on the Growth Profile and Fatty Acid Composition of Botryococcus sp.

Author

Windra Yuniarsih, Heli Siti Halimatul, and Asri Peni Wulandari

Subjects

botryococcus sp., electron-beam, fatty acids, Education (General), L7-991, Biology (General), QH301-705.5

Abstract

Botryococcus sp. is an economically important microalgae as it contains carbohydrates, lipids, proteins, and a number of phytochemicals. The high concentrations of saturated fatty acids (SFAs) and monounsaturated fatty acids (MUFAs) in this strain also a valuable source for production of biofuel. Mutagenic engineering using irradiation has been known to increase the content of these biomass. The aim of this study is to know the effect of electron-beam irradiation to the growth profile and fatty acid composition of Botryococcus sp. In this study, Botryococcus sp. adjusted an optical density 1.0 after being exposed to different doses of electron-beam irradiation (160 kGy, 240 kGy, and 320 kGy) and induced random mutagenesis for strain improvement was observed based on high energy (1.5 MeV and 2 mA). Several mutants obtained were designated as strain B160, B240, and B320, respectively. The profile growth was significantly different between control (0 kGy) and irradiated microalgae strain. The highest growth is found in B320 mutant. Fatty acid of Botryococcus sp. control produced 7 fatty acids, B160 produced 7 fatty acids, B240 produced 6 fatty acids, whereas B320 produced 9 fatty acids. B320 produced hydrocarbon and phtalic acid as well as fatty acids. Total SFAs and MUFAs of B240 was increased 1.6 times compared to the wild type. The results would give some implications to improve the quality of biodiesel from Botryococcus sp.

Published

2018

11. Study of carrier recombination at structural defects in InGaN films

Author

Cremades Rodríguez, Ana Isabel, Piqueras de Noriega, Javier, Cremades Rodríguez, Ana Isabel, and Piqueras de Noriega, Javier

Abstract

© 2002 Elsevier Science B.V. All rights reserved. International Conference on Defects: Recognition, Imaging and Physics in Semiconductors (DRIP IX)(9. 2001. Rimini, Italia). This work has been partially supported by MCYTDGI (Project Mat2000-2119). The authors thank Dr M. Albrecht for helpful discussions and Professor R.F. Davis for providing the samples., A series of 100 nm thick InGaN films with Indium content up to 14% has been grown by MOVPE on SiC substrates. Cathodoluminescence (CL) and remote electron beam induced current (REBIC) in the scanning electron microscope have been applied to investigate with high spatial resolution the recombination of carriers at the structural defects present in the films. The observed defects are mainly pinholes formed at the surface. The density of pinholes increases with the In content in the layers, which can be explained by elastic relaxation at pinholes. CL images show the spatial distribution of the emission sites. For pinholes with diameter in the mum range we observe enhanced luminescence around the pinhole and a reduced luminescence at the apex. Pinholes are observed in REBIC images as dark spots occasionally surrounded by a bright halo. The halo spreads over an area larger than the pinhole, with a diameter of about 3-4 mum. Also a cell-like dislocation structure has been observed in some samples in the CL and REBIC images. CL spectra show, as common features of the samples, a complex emission in the blue range and a broad structured band centered around 670 nm. The influence of the inhomogeneous Indium incorporation on the luminescence of the films and of charged defects on the observed REBIC contrast is discussed., MCYTDGI, Depto. de Física de Materiales, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

12. Ionizing radiation and its effects on pharmaceuticals.

Author

Sarcan, E. Tugce and Ozer, A. Yekta

Subjects

*RADIATION sterilization, *EXPOSURE dose, *MEDICAL equipment, *RADIATION exposure, *IONIZING radiation, *DRUGS, *RADIATION

Abstract

Radiation is used for different purposes such as sterilization, imaging, analysis and security. Sterilization, one of the the using area of radiation, is important issue for industries. The disadvantages of heat and chemical sterilization on medicines, medical devices and foodstuffs have made important the use of radiation sterilization. Officinal sterilization method are available (25 kGy gamma-rays) in the pharmacopeias. Other ionizing radiations are getting popular because of their advantages and changing conditions on gamma-sterilization. In this article, the results of different types of ionizing radiation exposure in different doses and several analytical methods used to detect differences have been evaluated. [ABSTRACT FROM AUTHOR]

Published

2020

13. Cleavage of functionalized organic group and role of active sites for very low concentration of gaseous wet methyl iodide in the presence of Ag nanoparticles in organofunctional silica-gel network.

Author

Im, Hee-Jung, Thang, Pham Tien, and Kim, Hong-Hyun

Subjects

*METHYL iodide, *ELECTRON beams, *TITANIUM dioxide nanoparticles, *SILICA gel, *VOLATILE organic compounds, *IONIZING radiation, *NANOPARTICLES

Abstract

Highlights • Gaseous wet CH 3 I can become entrapped in interstitial positions in a silica-gel network. • Methylations of amine (in PEDA) and silanol (in surface) through the introduced gaseous wet CH 3 I are observed. • 270 kGy ionizing radiation of electron-beam causes propylethylenediamine in hybrid silica gels fragment. • Ag nanoparticles do not seem to directly react with CH 3 I to produce AgI in our experimental conditions. • Interactions between Ag nanoparticles and propylethylenediamine enhance the Raman signals significantly. Abstract Electron-beam (e-beam) irradiation (270 kGy), applied to Ag nanoparticle (Ag NP) production, causes a chain cleavage of propylethylenediamine in a Ag NP-embedded propylethylenediamine-anchored SiO 2 gel (Ag NP-PEDA gel) network, releasing some volatile organic compounds (VOCs) by thermalizing the gel at 150 °C. The introduced gaseous wet CH 3 I can become entrapped in interstitial positions and can surround the Ag NPs, the remaining organics, or the Ag NP-amine in a silica-gel network, and another CH 3 I was found to form a methoxy species, Si OCH 3 , on the silica surface with the iodine leaving group (I−) not being chemically detected. The interactions between Ag NPs and N donor (of amine) and between amine and the methyl group (of CH 3 I) were confirmed respectively. Ag NPs do not seem to directly produce AgI with CH 3 I under our experimental conditions. Significantly enhanced Raman signals, strong emissions, interesting but different results between Fourier transform infrared (FT-IR) and attenuated total reflectance (ATR) spectroscopy data, and newly released VOCs were all described to support the interaction properties between the very low concentration of gaseous wet CH 3 I and the prepared Ag NP-PEDA gel under the controlled experimental conditions. [ABSTRACT FROM AUTHOR]

Published

2019

14. Estimation of the three-dimensional (3D) dose distribution of electron beams from medical linear accelerator (LINAC) using plastic scintillator plate.

Author

Horita, Ryo, Yamamoto, Seiichi, Yogo, Katsunori, Hirano, Yoshiyuki, Okudaira, Kuniyasu, Kawabata, Fumitaka, Nakaya, Takayoshi, Komori, Masataka, and Oguchi, Hiroshi

Subjects

*ELECTRON beams, *LINEAR accelerators, *ELECTRON distribution, *SCINTILLATORS, *CHARGE coupled devices, *IONIZATION chambers, *IMAGING systems

Abstract

Measurements of three-dimensional (3D) dose distribution of electron-beams in water are important for high-energy electron beams from medical linear accelerators (LINAC). Although ionization chambers are commonly used for this purpose, measurements take a long time for precise 3D dose distribution. To solve the problem, we tried the measurements of the 3D dose distributions using a scintillator plate combined with a mirror. After we placed a 1 mm thick plastic scintillator plate at the upper inside of a black box, a water phantom was set above the plastic scintillator plate outside the black box, and electron beam was irradiated to the water phantom from the upper side. The attenuated electron-beam by the water in the phantom was detected by the plastic scintillator plate and the scintillation image was formed in the plate. The image was reflected by a surface mirror set below the plastic scintillator plate and detected by a cooled charge coupled device (CCD) camera from the side. We changed the depths of the water in the phantom, obtained the scintillation images, and calculated a 3D scintillation image using the measured images. Measurements were made for 9 MeV and 12 MeV electron-beams using the imaging system. From the images, we could successfully form 3D scintillation images. The depth profiles measured from the 3D images showed almost identical distribution with those calculated by the planning system within the difference of 5%. The lateral profiles also showed almost identical within the difference of the widths less than 2.5 mm. We conclude that the proposed method is promising for 3D dose distribution measurements of electron-beams. [ABSTRACT FROM AUTHOR]

Published

2019

15. Direct etching of perovskite film by electron-beam scanning.

Author

Khachatryan, Hayk, Kim, Yong-Hwan, Kim, Kyoung-Bo, Yang, Hyun-Ju, and Kim, Moojin

Subjects

*ELECTRON beams, *PEROVSKITE, *ENERGY dispersive X-ray spectroscopy, *CRYSTAL etching, *ORGANOLEAD compounds

Abstract

Abstract In this work patterning method of organic-inorganic hybrid methyl ammonium lead iodide (CH 3 NH 3 PbI 3) perovskite films is demonstrated. It was estimated that using focused E-beam make possible to etch the perovskite film. Etching took place due to formation of lead-organic volatile compounds. The etching process was strongly depended on grazing angle of incident beam. It was estimated that etching effectively take place when grazing angle was close to 45 °C. Next key factor was an accelerating voltage. Structure changes take place when E-beam accelerating voltage exceeds 1 kV. Change of structure was tracked by X-ray diffractometry and X-ray photoelectron spectroscopy analyses. The surface evaluation was monitored by atomic force microscopy and scanning electron microscopy methods. Bulk composition was estimated by energy dispersive spectrometer. [ABSTRACT FROM AUTHOR]

Published

2019

16. Studies on the novel effects of electron beam treated pollen on colony reproductive output in commercially-reared bumblebees (Bombus terrestris) for mass pollination applications.

Author

Eakins, J., Lynch, M., Carolan, J.C., and Rowan, N.J.

Published

2023

17. Crosslinking of Polylactide by High Energy Irradiation and Photo-Curing

Author

Melania Bednarek, Katarina Borska, and Przemysław Kubisa

Subjects

polylactide, poly(lactic acid), crosslinking, photo-crosslinking, irradiation, electron-beam, Organic chemistry, QD241-441

Abstract

Polylactide (PLA) is presently the most studied bioderived polymer because, in addition to its established position as a material for biomedical applications, it can replace mass production plastics from petroleum. However, some drawbacks of polylactide such as insufficient mechanical properties at a higher temperature and poor shape stability have to be overcome. One of the methods of mechanical and thermal properties modification is crosslinking which can be achieved by different approaches, both at the stage of PLA-based materials synthesis and by physical modification of neat polylactide. This review covers PLA crosslinking by applying different types of irradiation, i.e., high energy electron beam or gamma irradiation and UV light which enables curing at mild conditions. In the last section, selected examples of biomedical applications as well as applications for packaging and daily-use items are presented in order to visualize how a variety of materials can be obtained using specific methods.

Published

2020

18. Influence of Electron Beam Powder Bed Fusion Process Parameters on Transformation Temperatures and Pseudoelasticity of Shape Memory Nickel Titanium

Author

Zeyu Lin, Kumar Babu Surreddi, Christopher Hulme, Sasan Dadbakhsh, and Amir Rashid

Subjects

Process parameters, Linear energy, process parameter, Parameter set, Helium, NiTi, Nickel, Materialteknik, Metallurgy and Metallic Materials, Titanium alloys, General Materials Science, cooling rate, Cooling rates, PBF-EB, Energy dissipation, Powder bed, Electron beams, Scan speed, Materials Engineering, Electron-beam, Binary alloys, Condensed Matter Physics, AM, mechanical property, Low Power, process paremeters, Energy inputs, Metallurgi och metalliska material, Cooling

Abstract

Electron beam powder bed fusion (PBF-EB) is used to manufacture dense nickel titanium parts using various parameter sets, including the beam current, scan speed, and postcooling condition. The density of manufactured NiTi parts is investigated in relation to the linear energy input. The results imply that the part density increases with increasing linear energy density to over 98% of the bulk density. With a constant energy input, a combination of low power and low scan speed leads to denser parts. This is attributed to lower electrostatic repulsive forces from lower number density of the impacting electrons. After manufacturing, the densest parts with distinct parameter sets are categorized into three groups: 1) high power with high scan speed and vacuum slow cooling, 2) low power with low scan speed and vacuum slow cooling, and 3) low power with low scan speed and medium cooling rate in helium gas. Among these, a faster cooling rate suppresses phase transformation temperatures, while vacuum cooling combinations do not affect the phase transformation temperatures significantly. Herein, all the printed parts exhibit almost 8% pseudoelasticity regardless of the process parameters, while the parts cooled in helium have a higher energy dissipation efficiency (1 − η), which implies faster damping of oscillations. © 2023 The Authors. Advanced Engineering Materials published by Wiley-VCH GmbH.

Published

2023

19. Perspectives of Micro and Nanofabrication of Carbon for Electrochemical and Microfluidic Applications

Author

Martinez-Duarte, R., Teixidor, G. Turon, Mukherjee, P. P., Kang, Q., Madou, M. J., and Chakraborty, Suman, editor

Published

2010

20. Effect of Electron-Beam Irradiation on Enzyme Activities in Agaricus brunnescens.

Author

Adibian, M. and Mami, Y.

Subjects

*ELECTRON beams, *ENZYME activation, *CULTIVATED mushroom, *PEROXIDASE, *POLYPHENOL oxidase, *IRRADIATION

Abstract

This project was carried out to study the effect of five different doses of electron-beam irradiation, including: 0 as control, 1.5, 3.5, 5.5 and 7.5 kGy on peroxidase (POD), superoxide dismutase (SOD) and polyphenol oxidase (PPO) activities of brown button mushroom (Agaricus brunnescens). The experiment was conducted using an electron beam accelerator (ESS-010-03) and measurements were made during 1, 4th, 8th, 12th and 16th day storage at 4 °C and 80 percent relative humidity. There was a significant difference between irradiated and non-irradiated (control) mushrooms in different enzymes (P≤0.01). Most Peroxidase activity was observed in mushrooms treated with 7.5 kGy. The irradiated mushroom with 7.5 kGy also showed the highest SOD activity. The lowest SOD activity in mushrooms was related to control in all days of storage. The mushrooms irradiated with 0 and 7.5 kGy contained higher and lower PPO activity using pyrocatechol as substrate respectively, during 12th and 16th day compared with other doses. Treatment of 0 kGy induced the highest PPO activity using pyrogallol as substrate in storage days. The data increased the current understanding of the effects of electron-beam irradiation on the enzyme activity changes associated with postharvest senescence and should lead to more targeted strategies for reducing postharvest quality loss in A. brunnescens. [ABSTRACT FROM AUTHOR]

Published

2018

21. Effect of Electron-Beam Irradiation on the Growth Profile and Fatty Acid Composition of Botryococcus sp.

Author

Yuniarsih, Windra, Halimatul, Heli Siti, and Wulandari, Asri Peni

Subjects

*BOTRYOCOCCUS braunii, *FATTY acids, *FOOD irradiation

Abstract

Botryococcus sp. is an economically important microalgae as it contains carbohydrates, lipids, proteins, and a number of phytochemicals. The high concentrations of saturated fatty acids (SFAs) and monounsaturated fatty acids (MUFAs) in this strain also a valuable source for production of biofuel. Mutagenic engineering using irradiation has been known to increase the content of these biomass. The aim of this study is to know the effect of electron-beam irradiation to the growth profile and fatty acid composition of Botryococcus sp. In this study, Botryococcus sp. adjusted an optical density 1.0 after being exposed to different doses of electron-beam irradiation (160 kGy, 240 kGy, and 320 kGy) and induced random mutagenesis for strain improvement was observed based on high energy (1.5 MeV and 2 mA). Several mutants obtained were designated as strain B160, B240, and B320, respectively. The profile growth was significantly different between control (0 kGy) and irradiated microalgae strain. The highest growth is found in B320 mutant. Fatty acid of Botryococcus sp. control produced 7 fatty acids, B160 produced 7 fatty acids, B240 produced 6 fatty acids, whereas B320 produced 9 fatty acids. B320 produced hydrocarbon and phtalic acid as well as fatty acids. Total SFAs and MUFAs of B240 was increased 1.6 times compared to the wild type. The results would give some implications to improve the quality of biodiesel from Botryococcus sp. [ABSTRACT FROM AUTHOR]

Published

2018

22. Effects of irradiation on polyethyleneterephthalate(PET) fibers impregnated with sensitizer.

Author

Zhu, Shifeng, Shi, Meiwu, Tian, Mingwei, Qu, Lijun, and Chen, Guohua

Subjects

POLYETHYLENE terephthalate, IRRADIATION, ELECTRON beams, CRYSTALLINITY

Abstract

Polyethylene terephthalate(PET) is difficult to be irradiation cross-linked at low dose for the aromatic groups. In this paper, trimethylolpropane triacrylate (TMPTA) was incorporated in PET fibers to sensitize the cross-linking. Changes in PET fibers subjected to electron beam irradiation at dose up to 200 kGy and dose rate 12 kGy/s were investigated by gel content, scanning electron microscopy, differential scanning calorimetry, X-ray diffraction, thermal gravimetric analysis and X-ray photoelectron spectroscopy. The gel content was 0.14% at dose of 60 kGy and it arrived at the maximum value 0.53% at 100 kGy. Irradiated fibers showed a decrease in the breaking strength and an increase in the elongation at break. The crystal form of PET fibers had not been changed and crystallinity decreased 28% with the increasing dose. The melting temperature shifted from the original 254.28 °C to 253.44 °C. The thermal stability and the amount of non-volatile residue at 800 °C increased at dose of 100 kGy. XPS analysis indicated that the number of C-C band increased to prove the occurring of cross-link. The surface of PET fibers got rougher after irradiation and the anti-dripping property had not been improved effectively for the low degree of cross-linking. [ABSTRACT FROM AUTHOR]

Published

2018

23. How gamma and electron-beam irradiations modulate phenolic profile expression in Melissa officinalis L. and Melittis melissophyllum L.

Author

Pereira, Eliana, Antonio, Amilcar, Barreira, João C.M., Santos-Buelga, Celestino, Barros, Lillian, and Ferreira, Isabel C.F.R.

Subjects

*EFFECT of gamma rays on crops, *ELECTRON beams, *LEMON balm, *PLANT phenols, *FOOD quality, *FOOD preservation

Abstract

Owing to the overall increase in herbal infusions’ consumption, there’s a progressively higher need of suitable plant material, as well as adequate conservation techniques to maintain its quality. Among, the available technologies, irradiation is gaining interest as a feasible preservation method. In line with this approach, this wok was designed to evaluate the effects of electron-beam and gamma irradiation over the phenolic profiles of two plant species Melissa officinalis L. (LB) and Melittis melissophyllum L. (BB). Individual phenolics were characterized by high-performance liquid chromatography coupled to a diode array detector and a mass spectrometer (HPLC-DAD-ESI/MS). Irradiated samples showed a general increase in individual phenolic contents, especially in lithospermic acid A in LB and 5- O -caffeoylquinic acid in BB. Thus, this study revealed the potential usefulness of both conservation technologies when employed to this type of plants. [ABSTRACT FROM AUTHOR]

Published

2018

24. Anti-biofouling membranes via hydrogel electron beam modification – A fundamental and applied study.

Author

Fischer, Kristina, Lohmann, Jessica, Schmidt, Eva, Blaich, Theresa Helene, Belz, Carsten, Thomas, Isabell, Vogelsberg, Eric, and Schulze, Agnes

Subjects

*HYDROGELS, *POLYMERIC membranes, *CHLORELLA vulgaris, *POLYETHYLENE terephthalate, *PERMEABILITY, *SURFACE charges

Abstract

Biofouling is still a major challenge in membrane science and accounts for up to 70% of the total costs of membrane-operated filtration systems. Thus, in this work, a thin layer of diverse synthetic hydrogels has been applied via electron beam-initiated polymerization on a polyethylene terephthalate (PET) track-etched membrane (fundamental study) as a simple model membrane and on a conventional used polyethersulfone (PES) ultrafiltration membrane (applied study) to study its anti-biofouling properties. The effect of hydrophilicity, roughness, surface charge, and degree of swelling of the attached hydrogel on algae (Chlorella Vulgaris) fouling was studied in a fundamental way, and long-time tests in a membrane bioreactor (MBR, filtration area 1.5 m2) over 11 months were performed on an applied scale. The hydrophilicity, roughness, and surface charge had only a minor to no effect on algae fouling. Only the degree of swelling had an impact on biofouling. The membranes with hydrogels with a low degree of swelling (6%) showed a lower loss of permeability (only 5%) after fouling, compared to a 25% loss with the highest degree of swelling (25%). During the operation over 11 months in a membrane bioreactor (MBR), the permeability is higher (ca. 10%) in a module equipped with hydrogel modified membranes, compared to a module with reference membranes. Thus, modification of membranes with a thin layer of a hydrogel results in an anti-biofouling surface. The degree of swelling is a decisive parameter to control biofouling. [Display omitted] • Electron beam polymerization of synthetic hydrogels on polymer membranes. • Charge and roughness had only a minor or no influence on anti-biofouling behavior. • Only hydrophilicity and degree of swelling showed an impact on biofouling behavior. • PEGDA hydrogel layer improved permeability of a MBR over 11 months of operation. [ABSTRACT FROM AUTHOR]

Published

2023

25. Smart E-Beam for Defect Identification & Analysis in the Nanoscale Technology Nodes: Technical Perspectives.

Author

Oberai, Ankush and Jiann-Shiun Yuan

Subjects

NANOTECHNOLOGY, BEAM splitters, SEMICONDUCTORS, INTEGRATED circuit design, ELECTRON beams

Abstract

Optical beam has been the veteran inspector of semiconductor wafer production house, ever since the birth of integrated circuit (IC). As technology and market place raise the bar on chip density, Moore’s law stretches to the limit. Due to its inherent physical limitations, the optical method just cannot see the measuring rod of silicon industry getting recalibrated to finer nano-scales. Electron Beam Inspection (EBI), by virtue of its high resolution, has started to rule the nodes at 10 nm and below. As the geometries shrink, defects can reside deep within the structures. EBI can find those tiny defects, which otherwise go scot-free with optical tools. However, EBI suffers the handicap of poor performance and low throughput. It is therefore essential to complement EBI by judiciously crafting out the methods for getting the desired performance, a subject matter to which, this article is committed to. The research torchlights the critical EBI throughput problem to round-up “care-areas”. Such guided and focused inspection augments throughput, thereby positioning EBI as the industrial grade candidate in finer nanometer segment. Besides gearing up to current trends, the smart EBI school of thought is inspirational, to fuel the aspirations for 1 nanometer scale. [ABSTRACT FROM AUTHOR]

Published

2017

26. Effects of gamma-ray, electron-beam, and X-ray irradiation on physicochemical properties of heat-induced gel prepared with salt-soluble pork protein.

Author

Kim, Hyun-Wook, Kim, Yuan, Hwang, Ko-Eun, Kim, Tae-Kyung, Jeon, Ki-Hong, Kim, Young-Boong, and Choi, Yun-Sang

Abstract

The objective of this study was to investigate the physicochemical and textural properties of heat-induced gels prepared with pork muscles irradiated with gamma rays, electron beams, and X-rays. Pork muscles were irradiated at 5 kGy using the different irradiation sources, and heat-induced gels were prepared from the irradiated pork muscles at a protein concentration of 5 mg/mL. Each irradiation treatment produced lower water-holding capacity, protein solubility, apparent viscosity, hardness, springiness, cohesiveness, gumminess, and chewiness than the control gel prepared with non-irradiated pork muscle ( P < 0.05). In addition, gamma irradiation was more influential than electron or X-ray irradiation on the negative impacts on water-holding capacity and texture of heat-induced gels. Therefore, this study suggests that the irradiation source could be one of the significant factors affecting gelling properties of irradiated meat. [ABSTRACT FROM AUTHOR]

Published

2017

27. Electron-beam modification of DLC coatings for biomedical applications.

Author

Gotzmann, G., Beckmann, J., Wetzel, C., Scholz, B., Herrmann, U., and Neunzehn, J.

Subjects

*ELECTRON beams, *DIAMOND-like carbon, *BIOMEDICAL materials, *BIOCOMPATIBILITY, *PHYSICAL vapor deposition

Abstract

The interest in diamond like carbon (DLC) coatings and their modification for biomedical applications is strongly increasing during the last years. Improvement of surface resistance to scratching and biocompatibility are the main goals of recent developments. Moreover, different capabilities of adjacent areas on surfaces are often required by complex applications. In this study, different deposition methods for diamond-like carbon (DLC) coatings were compared for their suitability in biomedical applications. In addition, DLC coatings modified by non-thermal electron-beams were investigated with regard to their biological interactions. The DLC coatings were deposited using four different methods (plasma-activated chemical vapor deposition, physical vapor deposition by magnetron sputtering, and physical vapor deposition via cathodic arc – both unfiltered and filtered). The different DLC coatings were characterized with regard to their wettability, morphology, roughness, and coating adhesion. The ability of coatings to withstand repeated sterilization cycles was investigated using a specialized test protocol parallel to standard sterilization procedures for medical devices. Biological evaluation was performed using human fibroblasts by assessing metabolic activity and cell counts. Electron-beam modification of the coatings was performed under ambient conditions using a low-energy electron-beam facility (150 kV acceleration voltage). All DLC coatings investigated were found to be biocompatible, with the coating deposited by magnetron sputtering showing the best results. In general, electron-beam modification resulted in the hydrophilicity of the different DLC coatings increasing, but no changes in surface morphology or roughness were observed. The cell adhesion to electron-beam-modified DLC coatings was reduced to 30% of the untreated DLC coatings, what can be attributed to changes in the surface chemistry. The long-term stability of the modified DLC coatings was also confirmed. Therefore, electron-beam treatment represents a promising tool for modifying and functionalizing DLC coatings, especially if varying requirements concerning biomedical functionality and cell adhesion are involved. [ABSTRACT FROM AUTHOR]

Published

2017

28. Effect of electron-beam irradiation on poly(2-hydroxyethyl methacrylate).

Author

Pinaeva, Uliana

Subjects

*ELECTRON beams, *METHACRYLATES, *CHAIN scission, *MEASUREMENT of viscosity, *GEL permeation chromatography, *INTRINSIC viscosity

Abstract

[Display omitted] • Electron-beam irradiation up to 100 kGy has an insignificant on chemical structure of poly(HEMA). • Intrinsic viscosity measurements and size exclusion chromatography confirmed the propensity to undergo chain scission. • The radiation sensitivity of poly(HEMA) is thought to be due to the limited ester side chain mobility hindering radical recombination as well as hydrogen bonding. • Acetaldehyde and carboxyl compounds were identified as the main products of polymer radiolysis. The understanding of the radiation-induced degradation mechanisms of polymers is essential towards developing new application implying radiation technology. This study reports on the effect of electron-beam (EB) radiation on linear poly(2-hydroxyethyl methacrylate) upon exposure to 5–100 kGy doses. Various spectroscopic and analytic methods were used to monitor the effects of EB radiation to assess poly(HEMA) reactivity during irradiation in the solid amorphous state. Intrinsic viscosity measurements and molecular weight (MW) determination using size exclusion chromatography (SEC) confirmed the propensity to undergo chain scission. The radiolytic yields for cross-linking and scission were assessed. Spectroscopic data allow to propose a reasonable mechanism accounting for these observations. [ABSTRACT FROM AUTHOR]

Published

2023

29. Solid-state nanopore sensors

Author

Ren Ren, Joshua B. Edel, Liang Xue, Hirohito Yamazaki, Meni Wanunu, and Aleksandar P. Ivanov

Subjects

Technology, Fabrication, Materials science, Materials Science, Solid-state, Materials Science, Multidisciplinary, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biomaterials, RESISTIVE-PULSE MEASUREMENTS, NANOPIPETTES DETECTION, Materials Chemistry, Nanoscience & Nanotechnology, LABEL-FREE, Quantum tunnelling, Plasmon, GRAPHENE NANORIBBON, Label free, chemistry.chemical_classification, Science & Technology, SINGLE-MOLECULE DETECTION, Biomolecule, ALPHA-HEMOLYSIN, ELECTRON-BEAM, 021001 nanoscience & nanotechnology, PLASMONIC NANOPORE, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Nanopore, chemistry, Science & Technology - Other Topics, ATOMIC LAYER DEPOSITION, DESIGNED DNA CARRIERS, 0210 nano-technology, Energy (miscellaneous)

Abstract

Nanopore-based sensors have established themselves as a prominent tool for solution-based, single-molecule analysis of the key building blocks of life, including nucleic acids, proteins, glycans and a large pool of biomolecules that have an essential role in life and healthcare. The predominant molecular readout method is based on measuring the temporal fluctuations in the ionic current through the pore. Recent advances in materials science and surface chemistries have not only enabled more robust and sensitive devices but also facilitated alternative detection modalities based on field-effect transistors, quantum tunnelling and optical methods such as fluorescence and plasmonic sensing. In this Review, we discuss recent advances in nanopore fabrication and sensing strategies that endow nanopores not only with sensitivity but also with selectivity and high throughput, and highlight some of the challenges that still need to be addressed. Nanopore sensors enable the solution-based analysis of nucleic acids, proteins and other biomolecules at the single-molecule level. This Review discusses new fabrication and sensing strategies — including field-effect transistors, quantum tunnelling and optical methods — that enhance the sensitivity and selectivity of nanopores.

Published

2020

30. ESTRO/ACROP IORT recommendations for intraoperative radiation therapy in locally recurrent rectal cancer

Author

M.A. Lozano, Claudio V. Sole, Philip Poortmans, Felipe A. Calvo, L. Gonzalez-Bayon, Harm J. T. Rutten, Wim Dries, Mauricio Cambeiro, Surgery, and RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy

Subjects

Surgical resection, Electron beam, medicine.medical_specialty, Intraoperative radiotherapy, Colorectal cancer, SURGERY, medicine.medical_treatment, Brachytherapy, R895-920, Systemic therapy, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, CHEMORADIATION, Medical physics. Medical radiology. Nuclear medicine, 0302 clinical medicine, medicine, Recurrent disease, Radiology, Nuclear Medicine and imaging, MULTIMODALITY TREATMENT, Rectal cancer, Rescue surgery, Intraoperative radiation therapy, Survival rate, RC254-282, Recurrent Rectal Cancer, RADIOTHERAPY IORT, business.industry, BRACHYTHERAPY, Intraoperative irradiation, Oligo-recurrence, SURGICAL RESECTION, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, ELECTRON-BEAM, IRRADIATION, Oncology, 030220 oncology & carcinogenesis, PELVIC RECURRENCE, Radiology, business, REIRRADIATION

Abstract

Highlights • Radiation dose escalation with intraoperative electron beam is feasible in the pelvic region. • IORT is an option to minimize radiation toxicity to ureters, bladder, prostate, vagina, uterus, small bowel. • Preoperative therapy, including a re-irradiation component, allows selection of patient candidates for local treatment intensification. • R0 status IOERT results supports individualized recommendation in expert clinical practice. • Survival contribution is described in oligo-recurrent patients amenable for radical rescue surgery without previous pelvic radiotherapy., Multimodal strategies have been implemented for locally recurrent rectal cancer scheduled for complete surgical resection. Irradiation and systemic therapy have been added to improve the oncological outcome, as surgery alone was associated with a poor prognosis. Intraoperative irradiation (IORT) is a component of irradiation intensification. Long-term cancer control and a higher survival rate were consistently reported in patients who had IORT as a component of their multidisciplinary treatment. The experience reported by expert IORT groups is reviewed and recommendations to guide clinical practice are explained in detail.

Published

2020

31. Space Charge Accumulation Characteristics on Fluorine-based Insulating Material of Electron beam Irradiated

Author

Kubo, Kohei, Endo, Kazuki, Enoki, Kaisei, Miyake, Hiroaki, and Tanaka, Yasuhiro

Subjects

宇宙機用絶縁材料, Insulating material, パルス静電応力法, used for spacecraft Ethylene-tetrafluoroethylene, エチレン四フッ化エチレン共重合体, 電子線, Electron-beam, 空間電荷, Space charge pulsed electroacoustic method

Abstract

第16回宇宙環境シンポジウム (2019年11月12日-13日. 東京都市大学横浜キャンパス), 横浜市, 神奈川県, The 16th Spacecraft Environment Symposium (November 12-13, 2019. Yokohama Campus, Tokyo City University), Yokohama, Kanagawa, Japan, Spacecraft are covered with MLI and OSR for protecting from the hard temperature differential in space environment and keeping the temperature inside of spacecraft. As the satellite are operated in the Van-Allen belt, those insulating materials are exposed by radio-active rays, such as electron and proton. Those charged particles are injected and accumulate in the bulk of materials. And it will be origin of electric static discharge (ESD). There phenomenon may lead to the satellite operation anomaly. Therefore, it is necessary to understand charging phenomena in the bulks of materials for spacecraft based on electronic physics, for reliabilities of long-life operation. In this research, we try to understand the charging phenomena on fluorinated polymer which are used for wire harness. Space charge accumulations in the bulk of the sample irradiated by an electron under DC application were studied using the pulsed electroacoustic (PEA) method., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: AA1930014002, レポート番号: JAXA-SP-19-009

Published

2020

32. BMP-2 incorporated biomimetic CaP coating functionalized 3D printed Ti6Al4V scaffold induces ectopic bone formation in a dog model

Author

Yifei Gu, Lingfei Wei, Zheru Zhang, Jeroen Van Dessel, Ronald B. Driesen, Ivo Lambrichts, Reinhilde Jacobs, Lei Tian, Yi Sun, Yuelian Liu, Constantinus Politis, Oral Regenerative Medicine (ORM), Oral Cell Biology, Gu, Yifei, Wei, Lingfei, Zhang, Zheru, Van Dessel, Jeroen, DRIESEN, Ronald, LAMBRICHTS, Ivo, Jacobs, Reinhilde, Tian, Lei, SUN, Yi, Liu, Yuelian, and POLITIS, Constantinus

Subjects

Technology, POROUS TI-7.5MO ALLOY, Bone substitutes, Science & Technology, SLOW DELIVERY, 3D-printing, CALCIUM-PHOSPHATE COATINGS, Mechanical Engineering, Materials Science, Materials Science, Multidisciplinary, Bone morphogenetic protein 2, MECHANICAL-PROPERTIES, ELECTRON-BEAM, IRRADIATION, Calcium phosphate, TITANIUM, Mechanics of Materials, Biomimetics, TA401-492, General Materials Science, DEPROTEINIZED BOVINE BONE, Titanium alloy, OCTACALCIUM-PHOSPHATE, Materials of engineering and construction. Mechanics of materials, CRYSTAL-GROWTH

Abstract

The use of Ti6Al4V in bone engineering is limited, due to the biological inertia of the surface. In this study, a porous Ti6Al4V scaffold with mechanical properties similar to cancellous bone was designed and 3D-printed. Under physiological conditions, the scaffold was immersed firstly in a 5-fold-concentrated sim-ulated body fluid, then in a supersaturated CaP solution containing BMP-2, to form a bone-like porous micro/nano structured biomimetic coating on the surface. Scaffolds were implanted in the muscle pouches created in six beagle dogs and were retrieved four weeks later for histologic and histomorpho-metric analysis. Results showed that BMP-2 integrated biomimetic CaP coating induced ectopic bone for- mation, which was absent in other two groups. Soft tissue infiltrated the scaffold’s outside 1 mm layer, while the new-formed bone was evenly distributed in the longitudinal and horizontal directions withinv the rest of the scaffold based on BA/TA, BIC and BA measurements. In conclusion, the BMP-2 incorporated biomimetic CaP coating creates a micro/nano surface structure on the Ti6Al4V scaffold, which helps to increase biocompatibility. The integrated BMP-2 is capable of inducing ectopic bone formation in vivo We acknowledged the contributions of all members of our research group to this article. This research was granted by National Natural Science Foundation of China(NSFC) No. 81670964, and Shandong Taishan Scholar Program to Dr. Yue-lian Liu. The authors appreciate Shanghai Rebone Biomaterials Co. for the supply of BMP-2

Published

2022

33. Chemical and mechanical post-processing of Alloy 718 built via electron beam-powder bed fusion: Surface texture and corrosion behavior

Author

Sadeghi, M., Diaz, A., McFadden, P., and Sadeghi, Esmaeil

Subjects

Corrosive effects, Hot isostatic pressing, Nickel alloys, Polarization, Shot peening, Superalloys, Surface treatment, Textures, Electron beam-powder bed fusion, Electron beams, Alloy 718, Corrosion performanc, Electron-beam, Ni-based superalloys, Polarization resistances, Powder bed, Surface finishing, Surface textures, Thermal post-treatments, Metallurgy and Metallic Materials, TA401-492, Manufacturing, Surface and Joining Technology, Metallurgi och metalliska material, Bearbetnings-, yt- och fogningsteknik, Surface texture, Materials of engineering and construction. Mechanics of materials

Abstract

Alloy 718 specimens manufactured via electron beam-powder bed fusion (EB-PBF) were subjected to post-processing techniques, such as thermal post-treatment and surface finishing. Hot isostatic pressing followed by solution-aging heat treatment (HIP-HT) was used as the thermal post-treatment. Surface finishing techniques, such as turning (TU), shot peening (SP), chemically accelerated vibratory finishing (CAVF), and electro-polishing (EP), were applied on the as-built and HIP-HT specimens. The surface texture of all the specimens was characterized, with the HIP-HT specimen having the highest area arithmetical mean height (Sa) value of 52 ± 1.8 µm and the TU specimen having the lowest at 1.1 ± 0.1 µm. The corrosion performance, typically associated with surface texture, was not always tied to the overused Sa value. CAVF had the highest polarization resistance of 75.8 kΩ.cm2 among the studied methods, followed by TU with polarization resistance of 43.8 kΩ.cm2, showing that the two techniques have a great potential for improving the surface characteristics of the EB-PBF-built Alloy 718 parts. Part of this work was supported by NASA's SBIR program under Contract Numbers 80NSSC18P2192 (Phase I) and 80NSSC19C0211 (Phase II).

Published

2022

34. The AWAKE Run 2 Programme and Beyond

Author

Edda Gschwendtner, Konstantin Lotov, Patric Muggli, Matthew Wing, Riccardo Agnello, Claudia Christina Ahdida, Maria Carolina Amoedo Goncalves, Yanis Andrebe, Oznur Apsimon, Robert Apsimon, Jordan Matias Arnesano, Anna-Maria Bachmann, Diego Barrientos, Fabian Batsch, Vittorio Bencini, Michele Bergamaschi, Patrick Blanchard, Philip Nicholas Burrows, Birger Buttenschön, Allen Caldwell, James Chappell, Eric Chevallay, Moses Chung, David Andrew Cooke, Heiko Damerau, Can Davut, Gabor Demeter, Amos Christopher Dexter, Steffen Doebert, Francesa Ann Elverson, John Farmer, Ambrogio Fasoli, Valentin Fedosseev, Ricardo Fonseca, Ivo Furno, Spencer Gessner, Aleksandr Gorn, Eduardo Granados, Marcel Granetzny, Tim Graubner, Olaf Grulke, Eloise Daria Guran, Vasyl Hafych, Anthony Hartin, James Henderson, Mathias Hüther, Miklos Kedves, Fearghus Keeble, Vadim Khudiakov, Seong-Yeol Kim, Florian Kraus, Michel Krupa, Thibaut Lefevre, Linbo Liang, Shengli Liu, Nelson Lopes, Miguel Martinez Calderon, Stefano Mazzoni, David Medina Godoy, Joshua Moody, Kookjin Moon, Pablo Israel Morales Guzmán, Mariana Moreira, Tatiana Nechaeva, Elzbieta Nowak, Collette Pakuza, Harsha Panuganti, Ans Pardons, Kevin Pepitone, Aravinda Perera, Jan Pucek, Alexander Pukhov, Rebecca Louise Ramjiawan, Stephane Rey, Adam Scaachi, Oliver Schmitz, Eugenio Senes, Fernando Silva, Luis Silva, Christine Stollberg, Alban Sublet, Catherine Swain, Athanasios Topaloudis, Nuno Torrado, Petr Tuev, Marlene Turner, Francesco Velotti, Livio Verra, Victor Verzilov, Jorge Vieira, Helmut Vincke, Martin Weidl, Carsten Welsch, Manfred Wendt, Peerawan Wiwattananon, Joseph Wolfenden, Benjamin Woolley, Samuel Wyler, Guoxing Xia, Vlada Yarygova, Michael Zepp, and Giovanni Zevi Della Porta

Subjects

Accelerator Physics (physics.acc-ph), proton-driven plasma wakefield acceleration, dark photons, Physics and Astronomy (miscellaneous), General Mathematics, Other Fields of Physics, FOS: Physical sciences, plasma wakefield acceleration, Accelerator Physics and Instrumentation, Ciências Naturais::Ciências Físicas [Domínio/Área Científica], AWAKE, strong-field QED, electron–proton physics, strong-field qed, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Ciências Naturais::Matemáticas [Domínio/Área Científica], Physics::Plasma Physics, Computer Science (miscellaneous), driven, awake, Ciências Naturais::Ciências da Computação e da Informação [Domínio/Área Científica], Acceleratorfysik och instrumentering, Accelerators and Storage Rings, electron-beam, Physics - Plasma Physics, Ciências Naturais::Outras Ciências Naturais [Domínio/Área Científica], electron-proton physics, Plasma Physics (physics.plasm-ph), Ciências Naturais::Ciências Químicas [Domínio/Área Científica], Chemistry (miscellaneous), Physics::Accelerator Physics, Electron–proton physics, Physics - Accelerator Physics, Particle Physics - Experiment

Abstract

Plasma wakefield acceleration is a promising technology to reduce the size of particle accelerators. Use of high energy protons to drive wakefields in plasma has been demonstrated during Run 1 of the AWAKE programme at CERN. Protons of energy 400 GeV drove wakefields that accelerated electrons to 2 GeV in under 10 m of plasma. The AWAKE collaboration is now embarking on Run 2 with the main aims to demonstrate stable accelerating gradients of 0.5-1 GV/m, preserve emittance of the electron bunches during acceleration and develop plasma sources scalable to 100s of metres and beyond. By the end of Run 2, the AWAKE scheme should be able to provide electron beams for particle physics experiments and several possible experiments have already been evaluated. This article summarises the programme of AWAKE Run 2 and how it will be achieved as well as the possible application of the AWAKE scheme to novel particle physics experiments., Comment: 21 pages, 8 figures. Submitted to Symmetry journal

Published

2022

35. PtRu/C electrocatalysts prepared using electron beam irradiation

Author

Dionísio Furtunato da Silva, Almir Oliveira Neto, Eddy Segura Pino, Michele Brandalise, Marcelo Linardi, and Estevam Vitorio Spinacé

Subjects

PtRu/C electrocatalyst, electron-beam, methanol, fuel cell, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

PtRu/C electrocatalysts (carbon-supported PtRu nanoparticles) were prepared submitting water/ethylene glycol mixtures containing Pt(IV) and Ru(III) ions and the carbon support to electron beam irradiation. The electrocatalysts were characterized by energy dispersive X ray analysis (EDX), X ray diffraction (XRD) and cyclic voltammetry and tested for methanol electro-oxidation aiming fuel cell application. The obtained PtRu/C electrocatalysts showed superior performance for methanol electro-oxidation at room temperature compared to commercial PtRu/C electrocatalyst.

Published

2007

36. Effects of irradiation source and dose level on quality characteristics of processed meat products.

Author

Ham, Youn-Kyung, Kim, Hyun-Wook, Hwang, Ko-Eun, Song, Dong-Heon, Kim, Yong-Jae, Choi, Yun-Sang, Song, Beom-Seok, Park, Jong-Heum, and Kim, Cheon-Jei

Subjects

*RADIATION sources, *RADIATION doses, *PROCESSED foods, *FOOD irradiation, *CHEMICAL radiation effects

Abstract

The effect of irradiation source (gamma-ray, electron-beam, and X-ray) and dose levels on the physicochemical, organoleptic and microbial properties of cooked beef patties and pork sausages was studied, during 10 days of storage at 30±1 °C. The processed meat products were irradiated at 0, 2.5, 5, 7.5, and 10 kGy by three different irradiation sources. The pH of cooked beef patties and pork sausages was unaffected by irradiation sources or their doses. The redness of beef patties linearly decreased with increasing dose level ( P <0.05), obviously by e-beam irradiation compared to gamma-ray and X-ray ( P <0.05). The redness of pork sausages was increased by gamma-ray irradiation, whereas it decreased by e-beam irradiation depending on absorbed dose level. No significant changes in overall acceptability were observed for pork sausages regardless of irradiation source ( P >0.05), while gamma-ray irradiated beef patties showed significantly decreased overall acceptability in a dose-dependent manner ( P <0.05). Lipid oxidation of samples was accelerated by irradiation depending on irradiation sources and dose levels during storage at 30 °C. E-beam reduced total aerobic bacteria of beef patties more effectively, while gamma-ray considerably decreased microbes in pork sausages as irradiation dose increased. The results of this study indicate that quality attributes of meat products, in particular color, lipid oxidation, and microbial properties are significantly influenced by the irradiation sources. [ABSTRACT FROM AUTHOR]

Published

2017

37. EBIS/T charge breeding for intense rare isotope beams at MSU

Author

Wenander, F. [CERN, Geneva, Switzerland]

Published

2010

38. Electron beam induced fine virtual electrode for mechanical strain microscopy of living cell.

Author

Hoshino, Takayuki, Miyazako, Hiroki, Nakayama, Atsuki, Wagatsuma, Akira, and Mabuchi, Kunihiko

Subjects

*ELECTRON beams, *ELECTRODES, *STRAIN theory (Chemistry), *ELECTROCHEMICAL analysis, *ELECTRON beam lithography, *SILICON nitride, *ELECTROKINETICS, *NANOPARTICLES analysis

Abstract

We have demonstrated nanomechanical applications using physicochemical and electrochemical phenomena of inverted-electron beam lithography (I-EBL), which induced in-situ two-dimensional (2-D) processing on wet samples and a living cell after the EB was stoppted in a 100-nm thick SiN membrane. The incident EB generates a virtual electrode and then this induces electrochemical and electrokinetic phenomena around the scanning trajectory. The I-EBL processing has a 120-nm resolution in full-width-at-half-maximum (FWHM) at the deposited line-and-space pattern in 10 mM 3,4-ethylenedioxythiophene (EDOT) diluted water solution. The virtual electrode also causes a electrokinetic local repulsive force with < ∼ 1 μm resolution toward the negatively charged nanoparticles, and the 2-D scanning of the EB allows 2-D actuation of the nanoparticles dispersed in a pure water solution. The virtual electrode also induces local detachment of adherent nanoparticles and focal adhesion of a living cell from the SiN membrane in a saline solution, probably due to both electrokinetic and partly chemical protein denaturation processes. The local detachment of a living cell is utilized to investigate spatio-temporal distributions of intracellular elastic strain as mechanical strain microscopy (MSM), which represents mechanical connectivity in the intracellular structure. This MSM should provide visualization of the location of the force generation in the cell. [ABSTRACT FROM AUTHOR]

Published

2016

39. The consequences of physical post-treatments (microwave and electron-beam) on food/packaging interactions: A physicochemical and toxicological approach.

Author

Riquet, A.M., Breysse, C., Dahbi, L., Loriot, C., Severin, I., and Chagnon, M.C.

Subjects

*PHYSICAL & theoretical chemistry, *FOOD packaging, *ELECTRON beams, *TOXICOLOGY, *POLYPROPYLENE

Abstract

The safety of microwave and electron-beam treatments has been demonstrated, in regards to the formation of reaction products that could endanger human health. An integrated approach was used combining the potential toxicity of all the substances likely to migrate to their chemical characterizations. This approach was applied to polypropylene (PP) films prepared with a selection of additives. Components were identified by liquid and gas chromatography using a mass selective detector system. Their potential toxicity was assessed using three in vitro short-term bioassays and their migrations were carried out using a standards-based approach. After the electron-beam treatment some additives decomposed and there was a significant increase in the polyolefin oligomeric saturated hydrocarbons concentration. PP prepared with Irgafos 168 led to a significantly strong cytotoxic effect and PP prepared with Irganox 1076 induced a dose-dependant estrogenic effect in vitro . Migration values were low and below the detection limit of the analytical method applied. [ABSTRACT FROM AUTHOR]

Published

2016

40. Effect of low-dosage electron beam irradiation on antioxidant activities of navel oranges during storage at a low temperature of 3°C.

Author

Cho, Yun-Jeong, Kim, Kyoung-Hee, and Yook, Hong-Sun

Abstract

Effects of low-dosage electron beam irradiation on antioxidant activities of Navel oranges during storage at a low temperature of 3°C were studied. Oranges were irradiated at dosages of 0.2, 0.4, 0.6, 0.8, and 1.0 kGy and changes in antioxidant compounds and antioxidant activities were investigated. No changes in total phenolic contents or flavonoid contents were observed with an increase in radiation dosage. Also, no differences between non-irradiated and irradiated oranges in DPPH radical scavenging and ABTS radical scavenging activities, FRAP values, and reducing powers were observed. Electron beam irradiation at dosages less than 1 kGy does not affect levels of antioxidant compounds and antioxidant activities of Navel oranges. [ABSTRACT FROM AUTHOR]

Published

2016

41. Keystone and stumbling blocks in the use of ionizing radiation for recycling plastics.

Author

Ponomarev, A.V., Gohs, U., T Ratnam, C., and Horak, C.

Subjects

*PLASTIC recycling, *IONIZING radiation, *PLASTICS, *PLASTIC marine debris, *WASTE treatment, *PLASTIC scrap, *MARINE pollution, *ELECTRON accelerators

Abstract

The International Atomic Energy Agency (IAEA) has launched the NUTEC Plastics initiative (NUclear TEchnology for Controlling Plastic Pollution), to mitigate plastic pollution, covering two areas: monitoring and impact assessment of microplastic in marine environments and addressing innovation in the treatment of plastic waste using radiation technologies. The latter approach is presented here, with a focus on the application of radiation-driven processes in the sorting, compatibilization, degradation, and thermal conversion of plastic waste and the main priorities for current projects. Keeping in mind the economic implementation of these approaches for the recycling of plastic waste, the latest trends in the development of powerful electron accelerators are presented and evaluated. Among the most promising application areas are irradiation methods for large-scale immobilization of plastic waste into road and building materials, combining virgin plastics with post-consumer plastics, and thermo-radiolysis, i.e. simultaneous irradiation and heating for synergistic decomposition of macromolecules/polymers. • The recycling of plastics can be enhanced by implementation of radiation technologies. • Radiolysis increases the compatibility of plastics with building materials components. • The difference in the lifetimes of radiolytic intermediates can be exploited for the sorting of polyolefins. • Radiolytic degradation can enhance the pyrolytic conversion of plastics. [ABSTRACT FROM AUTHOR]

Published

2022

42. Evaluation of the electron beam spot size in electron beam melting for additive manufacturing

Author

Zeyu, Lin, Zhao, Xiaoyu, Dadbakhsh, Sasan, Rashid, Amir, Zeyu, Lin, Zhao, Xiaoyu, Dadbakhsh, Sasan, and Rashid, Amir

Abstract

Since electron beam (EB) is the main additive manufacturing (AM) tool in electron beam melting (EBM), EB spot size plays a significant role in the parts quality, surface roughness as well as the microstructure and corresponding properties. So far, the research on measuring EB spot size has been mainly based on printing with/without powder single tracks on a metal plate such as stainless steel. However, this method, due to material thermal properties as well as the melting phenomena, cannot reveal the actual value for the EB spot size. This research is carried out to establish a simple methodology on measuring the EB spot size in a more accurate way at a low cost. To do so, a ceramic surface coating was applied to the surface of a copper starting plate and a stainless steel starting plate respectively. Afterwards, the EB applied the tracks onto the coated starting plate and regular metal starting plate. The analysis showed that the EB tracks on ceramic coated stainless steel plates could be the best replica for the electron beam among those materials tested in this work., Part of proceedings: ISBN 978-099577518-3QC 20220601

Published

2021

43. Transition between Instability and Seeded Self-Modulation of a Relativistic Particle Bunch in Plasma

Author

Batsch, F, Muggli, P, Agnello, R, Ahdida, CC, Amoedo Goncalves, MC, Andrebe, Y, Apsimon, O, Apsimon, R, Bachmann, A-M, Baistrukov, MA, Blanchard, P, Braunmüller, F, Burrows, PN, Buttenschön, B, Caldwell, A, Chappell, J, Chevallay, E, Chung, M, Cooke, DA, Damerau, H, Davut, C, Demeter, G, Deubner, HL, Doebert, S, Farmer, J, Fasoli, A, Fedosseev, VN, Fiorito, R, Fonseca, RA, Friebel, F, Furno, I, Garolfi, L, Gessner, S, Gorgisyan, I, Gorn, AA, Granados, E, Granetzny, M, Graubner, T, Grulke, O, Gschwendtner, E, Hafych, V, Helm, A, Henderson, JR, Hüther, M, Kargapolov, I Yu, Kim, S-Y, Kraus, F, Krupa, M, Lefevre, T, Liang, L, Liu, S, Lopes, N, Lotov, KV, Martyanov, M, Mazzoni, S, Medina Godoy, D, Minakov, VA, Moody, JT, Moon, K, Morales Guzmán, PI, Moreira, M, Nechaeva, T, Nowak, E, Pakuza, C, Panuganti, H, Pardons, A, Perera, A, Pucek, J, Pukhov, A, Ramjiawan, RL, Rey, S, Rieger, K, Schmitz, O, Senes, E, Silva, LO, Speroni, R, Spitsyn, RI, Stollberg, C, Sublet, A, Topaloudis, A, Torrado, N, Tuev, PV, Turner, M, Velotti, F, Verra, L, Verzilov, VA, Vieira, J, Vincke, H, Welsch, CP, Wendt, M, Wing, M, Wiwattananon, P, Wolfenden, J, Woolley, B, Xia, G, Zepp, M, Zevi Della Porta, G, AWAKE Collaboration, and Collaboration, AWAKE

Subjects

Accelerator Physics (physics.acc-ph), Proton, Other Fields of Physics, Phase (waves), FOS: Physical sciences, General Physics and Astronomy, Ciências Naturais::Ciências Físicas [Domínio/Área Científica], 01 natural sciences, Instability, Relativistic particle, physics.plasm-ph, 0103 physical sciences, 010306 general physics, physics.acc-ph, Physics, acceleration, Plasma, electron-beam, Accelerators and Storage Rings, Physics - Plasma Physics, ddc, Plasma Physics (physics.plasm-ph), Transverse plane, Amplitude, Physics::Accelerator Physics, Physics - Accelerator Physics, Atomic physics, Event (particle physics)

Abstract

We use a relativistic ionization front to provide various initial transverse wakefield amplitudes for the self-modulation of a long proton bunch in plasma. We show experimentally that, with sufficient initial amplitude ($\ge(4.1\pm0.4)$ MV/m), the phase of the modulation along the bunch is reproducible from event to event, with 3 to 7% (of 2$\pi$) rms variations all along the bunch. The phase is not reproducible for lower initial amplitudes. We observe the transition between these two regimes. Phase reproducibility is essential for deterministic external injection of particles to be accelerated., Comment: Letter and Supplemental Material, 6 figures, 8 pages

Published

2021

44. Closed-looped nano stimulation microscope for living cell membrane.

Author

Hoshino, Takayuki and Morishima, Keisuke

Abstract

Electron-beam could stimulate a living cell membrane through a 100-nm-thick SiN nanomembrane. We designed a co-axial dual microscope with an electron-beam lithography system and a fluorescence microscope to investigate bio-molecular dynamic system of living cell membrane. This microscope had a closed-looped controlling system using the fluorescence live cell imaging and the electron beam induced stimulation. The live cell imaging of the fluorescence microscope provides the chemical identity of the target molecule and the response to a following stimulation on the cell membrane, and the electron-beam can induce electro-chemical stimulation in hundreds nanometer resolution. Scanning of the electron-beam could provide high-speed, precise, and large scale stimulation on the target molecules. We attempted that the combination with this stimulation system and fluorescence microscope would provide the closed-loop control of the bio-molecule system on cell membrane. We proposed here the concept of the virtual molecule environmental display to study the functional changes on the target behavior due to our closed-loop control system on this co-axial microscope. [ABSTRACT FROM PUBLISHER]

Published

2012

45. Photocatalytic Degradation of 4-Bromodiphenyl Ether Using TiO2/MWCNTs Composites.

Author

Tang, Liang, Wu, Ming-hong, Xu, Gang, Jiao, Zheng, Liu, Ning, Wang, Liang, and Lei, Jian-qiu

Abstract

Polybrominated Diphenyl Ethers (PBDEs) are widely spread in the environment which posing elevated potential risks to the whole ecosystem, and has drawn increasing world's attention. In the present study, well dispersed TiO2/MWCNTs composites were synthesized by electron-beam irradiation method, X-ray diffraction (XRD) and transmission electron microscope (TEM) techniques were used to characterize the composites. The degradation of persistent organic pollutants was demonstrated via UV illumination using 4-bromodiphenyl ether (BDE-3) as a target compound, which exhibited ~90% photo catalytic degradation efficiency after the duration of 60 min. We also studied the effects of precursor titanium fluoride (TiF4) concentration and electron-beam irradiation dose on photo catalytic degradation efficiency of BDE-3, which were important factors in synthesis of the composites. The photo catalytic degradation of BDE-3 in acetone/water (1:1, v/v) solution followed the first-order reaction kinetics model. [ABSTRACT FROM PUBLISHER]

Published

2012

46. Suppression of ion emission and pinching using heated tantalum anodes in high-power electron-beam diodes.

Author

Weber, B. V., Stephanakis, S. J., Black, D. C., Cooperstein, G., and Pereira, N. R.

Abstract

Pulse-heating tantalum anodes to > 2200 K results in drastic changes to ion emission and beam dynamics. The ion current starts later, the peak ion current is reduced, and beam pinching is suppressed or eliminated. The diode current follows a single-species Child-Langmuir formula until the voltage exceeds 1 MV, then follows a critical current formula, indicating that ions have little effect on the diode impedance. The experiments indicate a definite dependence on different heating procedures. This technique can be used to improved x-ray production on high-power generators such as Decade. [ABSTRACT FROM PUBLISHER]

Published

2000

47. High-energy electrons generation in laser procuced plasmas.

Author

Koyama, Kazuyoshi, Saito, Naoaki, and Tanimoto, Mitsumori

Abstract

Emission of high-energy electron beams up to 2 MeV were observed from underdense plasmas produced by focusing high-power short laser pulses (1.8TW, 100fs) on gas jets. The electron beam was collimated in a half angle of 3–4° around the optical axis of the laser beam. The energy of the electrons has the power-law spectrum of E−3.5. The production of the high-energy electrons closely correlated with the appearance of the complex filamentary structure of the laser propagation. [ABSTRACT FROM PUBLISHER]

Published

2000

48. Preparation and characterization of electron-beam treated HDPE composites reinforced with rice husk ash and Brazilian clay.

Author

Ortiz, A.V., Teixeira, J.G., Gomes, M.G., Oliveira, R.R., Díaz, F.R.V., and Moura, E.A.B.

Subjects

*ELECTRON beams, *HIGH density polyethylene, *FIBROUS composites, *RICE hulls, *CLAY, *CROSSLINKING (Polymerization)

Abstract

Highlights: [•] We examine changes in HDPE properties when waste and clay are used as reinforcement. [•] The addition of only 3% of clay leads to important gains in HDPE properties. [•] The use of electron-beam contributes to greater improvements in material properties. [•] We observe 85% of cross-linking degree for the HDPE when treated with e-beam. [ABSTRACT FROM AUTHOR]

Published

2014

49. Combined Effects of Electron-Beam Irradiation and Storage Time on the Chemical and Antioxidant Parameters of Wild Macrolepiota procera Dried Samples.

Author

Fernandes, Ângela, Barreira, João, Antonio, Amilcar, Oliveira, M., Martins, Anabela, and Ferreira, Isabel

Subjects

*ELECTRON beams, *FOOD storage, *ANTIOXIDANTS, *MUSHROOMS, *FOOD texture, *FOOD color, *FOOD spoilage

Abstract

Mushrooms are very perishable foods due to their high susceptibility to moisture loss, changes in color and texture, or microbiological spoilage. Drying is considered as the most appropriate method to prevent these alterations, but it has some limitations, such as shrinkage, enzymatic and non-enzymatic browning reactions, and oxidation of lipids and vitamins. According to previous studies, irradiation might effectively attenuate the undesirable changes caused by drying process, ensuring also higher shelf-life of mushrooms and their decontamination. Electron-beam irradiation presents some technological advantages, since it allows higher dose rates and the possibility to be used in most foods/or thin products in a short period. Herein, the combined effects of electron-beam irradiation (0, 0.5, 1 and 6 kGy) and storage time (0, 6 and 12 months) were evaluated by measuring changes in nutritional parameters, namely, free sugars, tocopherols, fatty acids and antioxidant activity. As indicated by linear discriminant analysis, storage time had a higher effect on all the evaluated parameters, except fatty acids, which suffer significant changes with both factors. Overall, the obtained results indicate that electron-beam irradiation might be considered as a suitable technique, allowing long-lasting conservation periods while reducing changes induced by drying treatment. [ABSTRACT FROM AUTHOR]

Published

2014

50. Feasibility of electron-beam irradiation to preserve wild dried mushrooms: Effects on chemical composition and antioxidant activity.

Author

Fernandes, Ângela, Barreira, João C.M., Antonio, Amilcar L., Oliveira, M. Beatriz P.P., Martins, Anabela, and Ferreira, Isabel C.F.R.

Subjects

*ELECTRON beams, *ANTIOXIDANTS, *MUSHROOMS, *FOOD preservation, *FEASIBILITY studies, *PHENOLIC acids

Abstract

Abstract: Mushrooms are highly perishable matrices and to extend time of consumption they need to be preserved. Since all the available conservation technologies present disadvantages, the combination of two different processes might minimize some of the limitations. Therefore, in the present work, electron-beam irradiation (up to 10kGy) was applied to dried samples of Boletus edulis and Russula delica, extending previous findings using gamma- and electron-beam irradiations at lower doses (up to 6kGy) and different wild mushroom species. The effects on nutritional, chemical and antioxidant parameters were evaluated. In general, the applied irradiation, particularly at higher doses, had significant effects on chemical profiles (protein, sugar and organic acid levels tended to decrease, while unsaturated fatty acids, tocopherols and phenolic acids presented higher levels in irradiated samples) and antioxidant activity (increased in irradiated samples). Nevertheless, the assayed doses might be considered to enhance the conservation of B. edulis, allowing the simultaneous achievement of disinfestation and decontamination effects. Industrial relevance: B. edulis is among the most commercialized mushrooms worldwide. However, as all mushrooms, suffers severe conservation problems. Electron-beam irradiation (specifically at 6kGy) proved to be a suitable technology for mushrooms conservation, since it allows disinfestation and decontamination processes without causing high changes in the chemical profiles. In R. delica case, differences caused by irradiation were higher, but it was also found that applying 6kGy had the same effects of 2kGy dose, which might be useful for disinfestation (insects elimination) and decontamination (elimination of bacteria and other microorganisms) purposes. [Copyright &y& Elsevier]

Published

2014