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58 results on '"Laminar Flow Hood"'

1. Low-cost photolithography system for cell biology labs

Author

Naggay Benjamin K., Frey Kerstin, Schneider Markus, Athanasopulu Kiriaki, Lorenz Günter, and Kemkemer Ralf

Subjects
low-cost, photolithography, laminar flow hood, Medicine
Abstract

Soft lithography, a tool widely applied in biology and life sciences with numerous applications, uses the soft molding of photolithography-generated master structures by polymers. The central part of a photolithography set-up is a mask-aligner mostly based on a high-pressure mercury lamp as an ultraviolet (UV) light source. This type of light source requires a high level of maintenance and shows a decreasing intensity over its lifetime, influencing the lithography outcome. In this paper, we present a low-cost, bench-top photolithography tool based on ninety-eight 375 nm light-emitting diodes (LEDs). With approx. 10 W, our presented lithography set-up requires only a fraction of the energy of a conventional lamp, the LEDs have a guaranteed lifetime of 1000 h, which becomes noticeable by at least 2.5 to 15 times more exposure cycles compared to a standard light source and with costs less than 850 C it is very affordable. Such a set-up is not only attractive to small academic and industrial fabrication facilities who want to enable work with the technology of photolithography and cannot afford a conventional set-up, but also microfluidic teaching laboratories and microfluidic research and development laboratories, in general, could benefit from this cost-effective alternative. With our self-built photolithography system, we were able to produce structures from 6 μm to 50 μm in height and 10 μm to 200 μm in width. As an optional feature, we present a scaled-down laminar flow hood to enable a dust-free working environment for the photolithography process.

Published
2021
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3. Improved axenic hydroponic whole plant propagation for rapid production of roots as transformation target tissue

Author

Kyle Benzle and Katrina Cornish

Subjects
Hydroponic Culture, Laminar Flow Hood, Expanded Clay, Clay Ball, Axenic Plant, Plant culture, SB1-1110, Biology (General), QH301-705.5
Abstract

Abstract Background Plant roots are used as an efficient target tissue for plant transformation assays. In root propagable species transformed roots are able to regenerate into whole plants without the addition of exogenous hormones, thus avoiding somaclonal variation associated with many plant transformation protocols. Plants grown in soil or soilless solid medium have roots that tend to be extremely delicate and are difficult to sterilize in advance of plant transformation experiments. Axenic tissue culture plants grown on semi-solid media are slow to produce large amounts of biomass compared to plants grown in solution-based media. Methods Seeds were germinated and grown for 14 days on half-strength semi-solid Murashige and Skoog medium containing 1% sucrose. Seedlings were then transferred to Magenta™ GA7 vessels containing either liquid or semi-solid ½ MS medium with 0.25, 0.5, 1, 2 or 3% sucrose. In the hydroponics (liquid medium) treatments, expanded clay balls were used to anchor seedlings. Hydroponic vessels were fitted with a sterile air aeration hose and filled ¾ full (100 mL) with liquid ½ MS media. Liquid media were replaced after 7 days. All plants were grown under fluorescent lights for 14 days. Results We have developed an improved axenic hydroponic propagation system for producing large quantities of plant roots for use in transformation assays using Taraxacum kok-saghyz as a model for root propagable species. Plants grew significantly faster in liquid media than on solid media. Addition of sucrose from 0.25 to 2% was correlated with an increase in biomass accumulation in plants grown in liquid media. Conclusions Our improved axenic hydroponic method yields sufficient quantities of roots for extensive plant transformation/molecular studies.

Published
2017
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4. A Successful CFD-Based Solution to a Water Condensation Problem in a Hard Disk Drive Factory

Author

Jatuporn Thongsri

Subjects
Airflow, computational fluid dynamics, CFD simulation, laminar flow hood, ventilation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

This paper was intended as an article of a practical solution. The settings of a ventilation system for a production line in a hard disk drive (HDD) factory were inappropriate leading to a condensation problem in a work area causing the finished products to be defective and unsalable. This paper describes an attempt to solve this problem and the outcome. Computational fluid dynamics (CFD) was used to simulate the airflow from a ventilation system in an HDD factory. The simulation results were validated with actual values measured with instruments readily available at the factory. The simulation results showed that the airflow patterns and temperature distribution of the air above and around some areas in the production line were not proper. The old temperature setting of the system for the air coming out of the inlet caused the temperature of the air above the said areas to be in the range of 13-20.5 °C, which was lower than the dew point temperature thus causing a condensation problem. From the results of the simulation, we recommended the factory to increase the inlet air temperature to be around 16.5-22 °C, so that the temperature of the air above and around the work areas would be higher than the dew point temperature and more uniform. The factory implemented our recommendation and found that it not only solved the problem satisfactorily but also saved the air-conditioning cost.

Published
2017
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12. Introduction

Author

Faoro, Valentina, Becker, Karl-Friedrich, Stanta, Giorgio, and Stanta, Giorgio, editor

Published
2011
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42. Local Clean Area

Author

Xu, Zhonglin

Subjects
Contamination Degree, Laminar Flow Hood, Particle Concentration, Isolation Effect, Filter Tube, Article
Abstract

It is called the comprehensive cleaning method when the environment in whole working area indoors is clean by the air cleaning and other comprehensive treatment measures. It is called the local cleaning method when the environment in local working area indoors or the particular local space is clean only by the local air cleaning measures. For the application where local cleaning method can be used, the comprehensive cleaning method should be avoided as much as possible.

Published
2013

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