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Print Your Own Labware, Catalysts Included
scibri writes "Chemists have found a way to make reaction vessels perfectly suited to their needs, with 3D printers. From the article: 'Armed with a three-dimensional printer and the type of silicone-based sealant typically used for bathrooms, researchers have demonstrated a novel way to control chemical reactions ...
One vessel was printed with catalyst-laced "ink," enabling the container walls to drive chemical reactions. Another container included built-in electrodes, made from skinny strips of polymer printed with a conductive carbon-based additive. The strips carried currents that stimulated an electrochemical reaction within the vessel.'"
This is sure to lead to some fantastic bongs.
You must be kidding me, $32 for a single article in an electronic format. In what kind of dream world do these pushlishing groups live in? Shame that all that knowledge lurks behind some arbitrary borders and is thus limited to a small group of lucky people.
i got a little "electronics kit" as a birthday present and the additional modules every year after it was a great experience and kinda brought me into the whole electronics/pc world such kits were also available from the same manufacturer for chemistry i would sure love to see this printing technology made into such products as they are a great way to play&learn imho
That could be interesting, I wonder if the information is open (I've been here long enough to know not to RTFA), because I know the reprap guys have been trying to find a way of printing conductive parts, primarily so they can make the first steps to printing circuits.
3d printers civilian forfeiture seized as drug lab paraphernalia in 3... 2... 1...
It is an interesting economic problem as it costs way more than glass, but is "optimized". Not sure when it would economically pay off.
Recently I was making fun of chemistry glass taper standards on /., because just like in CS / IT there are so many conflicting standards that won't interoperate. Its almost as bad as screw threads. Printing a "optimized" 127 ml beaker with built in electrodes instead of taking a generic pyrex 125 ml off the shelf and sticking some off the shelf electrodes into it, seems a complete waste of expensive and slow 3-d printing resources, but writing a "magic" python script (or whatever) that could squirt out a 3-d file to adapt any ground glass taper to any other ground glass taper would be pretty handy.
Aren't the clamps for ground glass called "keck clips" or something like that? I'm talking about the little plastic clamps that hold ground glass joints together so they don't fall apart while working. I believe that product came out in the mid 80s a bit too late for my lab time in the early 90s. A fellow o-chem student had a nice small lab fire due to the lab not having those new-fangled keck clips available (no injury or property damage, thankfully). I think there is a realistic safety advantage by being able to print up the exact safety gear you need, whenever you need it. That might be another valid chem lab market. Not having the proper clamps and such is no excuse if you can just print another.
I also think it would be fun to 3-d print microscale apparatus, because at least its small and cheap and fast. Didn't read the article, maybe thats the scale they're talking about.
"Science flies us to the moon. Religion flies us into buildings." - Victor Stenger
It's Monday morning, I'm tired, and I pulled up my feed to see "Print your own lawyer".
I expect to see a Slashdot article on this in the near future.
Their they're doing there hair.
This is a fantastic - and obvious - idea.
The hard part is convincing any supervisor that their basic lab equipment is in fact a serious impediment to research. Quarter million dollar nano-ink printer? Where do I sign! "Hi, we need to get about 100 more beakers because at any 1 time people are using 50 or so for various things" - "Well I don't know. I think people should really just return them sooner".
Now if someone could invent a reliable printer that just prints black and white without crashing after six months.
Actually, about a week ago I was looking at some 3d printer porn (waiting for my reprap kit to arrive)..and saw mention of how objects can be printed that couldn't really be built other ways...solid pieces with internal cavity walls etc....
the first thing I thought of was, in fact, vessels with very high internal surface areas (possibly even textured to provide even more surface area) which could be used for catalyst reactions or even for brewing (I believe there has been some experimental work in brewing using a vessel like this where yeast was in some way integrated into the internal surfaces.
This is a very neat area of research.
"I opened my eyes, and everything went dark again"
This isn't a new idea. "Lab on a disc" systems have been used for analysis for years. They use little disposable plastic discs with complex patterns of channels, some of which have been pre-filled with reagents. The disk is injected with a sample, and then placed in a machine which can rotate it (for mixing) and spin it fast (for centrifuging).
Even smaller are lab on a chip systems, where the device is made by IC fab techniques. These are usually mass-produced for medical applications. The machines used with these consumable components are usually desktop devices, with hand-held portable ones becoming available.
These microfluidic systems are for analysis, and maybe some biosynthesis. They work on tiny amounts of fluid. Nobody is going to make a chemical manufacturing plant this way.
The new thing here is making such devices as one-offs for researchers, rather than in quantity.
The supervisor's right - they should return them sooner.
Honestly, nothing drove me more nuts than people being inconsiderate with communal glassware. My lab was excellently equipped, with a more than sufficient supply of glassware for the people working there - if they were kept in circulation, that is. Instead they sat in fridges, freezers, in the back of fumehoods, often unlabelled and far past the point of their contents being important or, in some cases, even known.
It's bad lab practice. Keep stocks of intermediates etc. in cleaned out reagent bottles. Keep small samples in glass vials or other "disposable" glassware. Don't store your NMR tubes or marker pens in glassware (I'm not making these examples up).
Although, thinking back on it, maybe that stuff was only really bugging me because it was the last six months of my PhD and *everything* was bugging me...
I would have been quite annoyed at that. Hell, I even get annoyed when the people near my lab bench have a bunch of glassware (UNLABELED) scattered around and encroaching on my workspace. It's not like we're heating 12M HCl every day, but even if we're using .15M KI in water, it's not that hard to label things and keep a lab space organized! of course, some of these people have to be reminded about using the right disposal container...
but then, we're not PhD students
Science 269, 1857-1860 (1995)
J. Phys. Chem. 100, 18970-18975 (1996)