Malvern Morphologi 4-ID
Malvern Morphologi 4-ID combines automated static imaging for particle size, shape, count with Raman Spectroscopy to enable additional chemical identification analysis.
Manufacturer | Malvern Panalytical |
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Product Series | Malvern Morphologi |
Measurement principle | Microscopy - Image Analysis + Raman Spectroscopy |
Application | Particle Shape, Count & Chemical ID |
Particle size range | 0.5µm to >1300µm |
Particle size parameters | Circle equivalent diameter, length, width, perimeter, area, max distance, sphere equivalent vol, fiber total length, fiber width |
Avestin Emulsiflex C5
The Avestin Emulsiflex C5 is a lab scale, air driven, high pressure homogeniser that rapidly reduces particles and droplets from micron to nanometer sizes.
Manufacturer | Avestin |
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Product Series | Emulsiflex |
Measurement principle | High Pressure Homogenisation |
Application | Emulsions, Liposome Processing & Mixing |
Homogenising pressure | up to 30,000 psi (207 MPa) |
Throughput | 1 to 5 Litres/hr |
Avestin Emulsiflex C3
The Avestin Emulsiflex C3 is a lab scale, electric motor driven, high pressure homogeniser that rapidly reduces particles and droplets from micron to nanometer sizes.
Manufacturer | Avestin |
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Product Series | Emulsiflex |
Measurement principle | High Pressure Homogenisation |
Application | Emulsions, Liposome Processing & Mixing |
Homogenising pressure | up to 30,000 psi (207 MPa) |
Throughput | 3 Litres/hr |
Malvern Omnisec – Advanced Multi-Detection SEC/GPC
Malvern OMNISEC is an advanced multi-detector size exclusion/gel permeation chromatography (SEC/GPC) system with unmatched sensitivity for the measurement of molecular weight, concentration and structure.
Manufacturer | Malvern Panalytical |
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Product Series | Malvern OMNISEC |
Measurement principle | Gel Permeation Chromatography (GPC/SEC) |
Application | Molecular Weight & Size, Polymer Characterisation |
Temp control | 20-65°C, OMNISEC Reveal |
Autosampler temp control | 4-60°C |
Customer Installations
UWS, Advanced Materials Characterisation Facility (AMCF) have installed their new bench-top Phenom XL Scanning Electron Microscope (SEM).
Phenom XL Desktop SEM
The UWS through collaboration with Phenom-World BV, and ATA Scientific has been able to secure a 2 year placement of the bench-top Scanning Electron Microscope (Phenom SEM)
Phenom GSR SEM
UNSW, School of Chemical Engineering has installed their new KSV NIMA Langmuir-Blodgett Trough
Biolin-KSV NIMA LB Trough
LaTrobe University, School of Molecular Sciences, have installed their new NTA system to investigate extracellular vesicles (exosomes, microvesicles)
Malvern NanoSight NS300
Biomolecular Science
Biomolecular science is a discipline within the life sciences that focuses on cellular processes at the molecular level. It involves the analysis, transformation and manipulation of molecules, and the molecular interpretation of the world around us.
Biomolecules play indispensable roles in several life processes, including disease development, making the accurate detection of biomolecules critical to disease diagnosis and therapy. Biomolecular scientists have been responsible for developing non-invasive cancer diagnosis, rapid pathogen detection, novel medicines, and new ways to produce cheap renewable energy. This shows that those with expertise in biomolecular science are critical to our future development.
Biomolecular science helps us understand how molecules form, interact and influence the structure and function of biological systems. Through structured research, theoretical and practical problems can be solved and concepts presented. Much of biomolecular science is quantitative, and recent work has been done at its interface with computer science in bioinformatics and computational biology.
Similar disciplines in life sciences
Other areas of biology are increasingly intersecting with biomolecular science, focusing on molecules in evolutionary biology such as population genetics and phylogenetics (either directly by studying interactions in their own right such as in cell biology and developmental biology, or indirectly where molecular techniques are used to infer historical attributes of populations or species).
There are a number of other disciplines within the life sciences that are broadly defined by the scale at which study takes place and the study methods that are used. Examples include:
- Biochemistry – The study of the fundamental chemistry of life, focusing on the chemical processes within and related to living organisms.
- Molecular biology – The study of the structure and function of macromolecules essential to life.
- Cellular biology – The study of the structures and functions of cells as the basic unit of life.
- Biotechnology – The use of organisms and biological techniques to produce drugs and food.
- Genomics – The field concerned with the structure, function, evolution and mapping of genomes.
- Proteomics – The large-scale study of proteomes (sets of proteins produced in an organism, system, or biological context) and their interactions with each other.
- Pharmaceutical chemistry – The identification and synthesis of new chemical entities and the study of their structure-activity relationships.
Instruments used in biomolecular science
ATA Scientific offers a range of instruments that are used in biomolecular sciences, including:
- Malvern MicroCal PEAQ ITC Automated
- Malvern Zetasizer Ultra
- Malvern Omnisec – Advanced Multi-Detection SEC/GPC
- Phasefocus LiveCyte
- Logos Biosystems X-Clarity
- Logos Biosystems Celena X
- Cellbox Solutions Live Cell Shipper
- Micropore Pathfinder
- RedShiftBio Aurora
- Malvern Panalytical WAVEsystem GCI
ATA Scientific and biomolecular science
For over 28 years ATA Scientific has provided the most innovative instruments from leading manufacturers in biomolecular science. Our suppliers include some of the world’s most well-regarded companies, including Malvern Panalytical, Phenom World (now part of Thermo Fisher Scientific), RedShiftBio, Avestin, Micropore Technologies, InProcess-LSP, Hauschild, Phasefocus and Logos Biosystems, Cellbox Solutions and Micromeritics.
The essence of what we do at ATA Scientific is to provide the instruments and know-how for you to obtain meaningful and reliable analytical results. We do this by listening to your requirements and taking care to supply the most suitable technology together with on-going help. We’ve built an extensive customer base throughout Australia and New Zealand and we represent a group of highly regarded international companies.
Let us help you with your biomolecular science research and contact us today.
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