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Poster Presentations. This is … A Presentation about Presentations A Power Point about a Power Points A Talk about Talks A boring speech about how not to be boring. Poster Session for all: SULI, NUF, ACTS, PST, NPT, STP, FaST , CCI, HSI, and SOS. Deadlines: - PowerPoint PPT Presentation
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Poster Presentations
This is …A Presentation about PresentationsA Power Point about a Power Points
A Talk about TalksA boring speech about how not to be
boring
Poster Session for all: SULI, NUF, ACTS, PST, NPT, STP, FaST, CCI, HSI, and SOS
• Deadlines: – Monday, March 14 – asking me to print your
poster – Wednesday, March 16 – print your own poster – Invite your mentors!
What is a poster?• A picture “book” science paper for people who prefer to stand!• Say it in pictures: – Flow charts to explain experiment design and
methods– Photos for setups, apparatus, design, results– Graphs to show relationships, results, models– Graphics for computer models
• Explain in big letters and simple words• Use color and pictures to attract attention and
to bring people closer
What NOT to do:
Wait until the last minute and thumb tack a print out of the final paper
Work hard to create a Van Gogh then hold up the printer until it runs out of ink
What to do?
• Plan your research report: – What have you done? – really!– How?– What has been done previously? (Introduction)
• Write an outline: Connect Ideas! • Prepare all figures • Expand the outline: add explanations• Transfer all your work to the poster
Setup in Power Point for making a one-page (one-slide) poster
Slide Layout
• The next few slides show examples of layout. Feel free to use and/or modify any of these examples
Title of Poster in Arial, Bold, 80-96 Points: Size Dependent on Length
Acknowledgments (Arial, 40)Acknowledgments in Arial, 32 points, bold--try to keep to one or two lines,
Names of Authors in Arial, 60 Points, Bold
Heading 1, Arial, 54 points, bold
Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold.
Heading 3, Arial, 54 points, bold
Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold.
Figure 2. Caption in Arial, 36 points, bold.
Figure 1. Caption in Arial, 36 points, bold.
Lab Logo
Key Image 1
Key Image 2
Figure 3. Caption in Arial, 36 points, bold.
Key Image 3
Figure 4. Caption in Arial, 36 points, bold.
Key Image 4
Heading 4, Arial, 54 points, bold
Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold.
Figure 5. Caption in Arial, 36 points, bold.
Key Image 5
Heading 5, Arial, 54 points, bold
Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold.
References (Arial, 40 points, bold)
First reference in Arial, 32 points, bold, with a reverse indent: alphabetical or numerical order.
Second reference in Arial, 32 points, bold, with a reverse indent: alphabetical or numerical order.
Heading 2, Arial, 54 points, bold
Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold. Text in Arial, 40 points, Bold.
Institution Logo
How to present?
• You have 30 seconds to get the judges’ attention!
• DON’T: give a history lesson!• DO: tell most important findings first– SUMMARY FIRST– Move in diagonally through your poster – Repeat and explain – After 1 – 2 minutes:– If the listener is still there – you are doing well
• Have a great time!
Example 2: Molecular Biology
Example 3: Plasma Physics
Graphical Abstract Abstract:
Argon plasma sintering of inkjet printed silver tracks on polymer substrates
Ingo Reinhold, Chris E. Hendriks, Rebecca Eckardt, Johannes M. Kranenburg, Jolke Perelaer, Reinhard R. Baumann and Ulrich S. Schubert
An alternative and selective sintering method for the fabrication of conductive silver tracks on common polymer substrates is presented, by exposure to low-pressure argon plasma. Inkjet printing has been used to pattern a silver nanoparticle ink. This resulted in conductive features with a resistivity less than one order of magnitude higher than the bulk value of silver without affecting the polymer substrate. This process may be employed in the production of conductive features with low material usage on common polymer substrates in, for example, printed electronics.
Graphical Abstract: