> A factory-trained service technician recommended to me that if a lens
> needed scraping in any way then the preferred implement was copper
> wire. If you cut this with ordinary side-cutters there is a bevelled
> edge produced.
>
> Barry O'Brien
>
> At 12:04 a.m. 02/04/2009, you wrote:
>> Unrelated really but, our biggest problems is undergraduates on the
>> teaching lab microscopes getting DPX on the lenses.
>> While they are always told how to avoid this, drop the stage before
>> swinging a high magnification lens into place, in the excitement a
>> fair number forget this after having tipped the contents of the DPX
>> bottle onto the slide and floated a cover slip on the top.
>>
>> I have been told that chloroform should get this off, however this
>> has not been particularly successful when the DPX has dried on.
>>
>> Of course I do get the DPX off but I hesitate to mention my technique.
>>
>> Anyone come across a tried and tested method that doesn't involve
>> careful application of a razor blade?
>>
>> Leigh Silvester
>>
>> ------------------------------------------------------------------------
>>     From: Confocal Microscopy List [
>>     mailto:[hidden email]] On Behalf Of Guy Cox
>>     Sent: 01 April 2009 11:00
>>     To: [hidden email]
>>     Subject: Re: Cleaning lens.
>>
>>     When I first learnt about microscopes (a very long time ago) I
>>     was taught that while dry objectives often had their front
>>     element mounted with some adhesive, oil immersion objectives
>>     didn't - the element was held by a screw ring. Hence it was safe
>>     to clean them with solvent - we usually used xylene because that
>>     was handy - it was also used in mounting specimens (with canada
>>     balsam). Of course this didn't offer any solution to the clumsy
>>     clot who gets oil on the x40. But that wasn't actually quite so
>>     common then because oil immersion lenses were longer - ie not
>>     parfocal - so if someone swung the turret round the dry lenses
>>     would clear the oil. On the other hand this didn't make using oil
>>     lenses too easy - and they didn't have spring noses then either.
>>
>>     Nowadays I'd have thought that if any adhesive is used it would
>>     be epoxy which is pretty much immune to solvents.
>>
>>
>>     Guy
>>
>>
>>     Optical Imaging Techniques in Cell Biology
>>     by Guy Cox CRC Press / Taylor & Francis
>>     http://www.guycox.com/optical.htm
>>     ______________________________________________
>>     Associate Professor Guy Cox, MA, DPhil(Oxon)
>>     Electron Microscope Unit, Madsen Building F09,
>>     University of Sydney, NSW 2006
>>     ______________________________________________
>>     Phone +61 2 9351 3176 Fax +61 2 9351 7682
>>     Mobile 0413 281 861
>>     ______________________________________________
>>     http://www.guycox.net <http://www.guycox.net/>
>>
>>
>>     ------------------------------------------------------------------------
>>     From: Confocal Microscopy List [
>>     mailto:[hidden email]] On Behalf Of Keith Morris
>>     Sent: Wednesday, 1 April 2009 6:47 PM
>>     To: [hidden email]
>>     Subject: FW: Cleaning lens.
>>
>>     I think Zeiss’s comment that repeated use of ethanol will damage
>>     Zeiss’s lens cement was just that – use it a few times a day and
>>     the Zeiss objective will probably fail in 6 months or so [and
>>     this might be the case for many solvents, ethanol is simply one
>>     more readily at hand*]. Use ethanol every month or so and chances
>>     are the objective will last a lot longer [and fail for another
>>     reason]. Use ethanol on a very elderly microscope where the
>>     lenses are mounted in say gum resin though and you will destroy
>>     the objective pretty much instantly [or at least get a nasty
>>     smear of gum resin all over the clear bit] - hence some people’s
>>     historical aversion is justified. I did mention to a Zeiss rep
>>     why did he just use 70% ethanol on our new 100x zillion NA TIRF
>>     objective when Zeiss say that repeated use will damage the
>>     objective, he said, well repeated use will damage the objective,
>>     but once or twice won’t matter [and then I thought ‘well I
>>     suppose it’s not actually his £8,000 objective’]. Other
>>     manufacturer’s actually recommend ethanol, e.g. Olympus. However
>>     immersion oil doesn’t dissolve in ethanol that well, hence
>>     another reason for the recommended use of other solvents, e.g.
>>     Petroleum ether - see
>>     http://instrument-support.nikonusa.com/app/answers/detail/a_id/10379
>>
>>     *from the micro/primer site: "In the past, solvents have been
>>     routinely employed for nearly any cleaning task in microscopy,
>>     and particularly for removal of immersion oil. Potential problems
>>     associated with solvent cleaning are sufficiently serious that
>>     the best current approach in cleaning the microscope is to use
>>     solvents only when absolutely necessary, essentially as a last
>>     resort rather than a first step. The issue of the use of solvents
>>     is further complicated and confused by contradictory
>>     recommendations in the scientific literature, as well as by
>>     differences in manufacturers' technical publications. Although
>>     alcohol and xylene are widely recommended as lens cleaning
>>     solvents, they are also named as being harmful to both the
>>     mechanical and optical components of many microscopes. Because of
>>     the variation in solvent recommendations, and the likelihood that
>>     some of the materials used in the instrument components are not
>>     known to the user, it is prudent to restrict use of any solvent
>>     to an absolute minimum.”
>>
>>     i.e. have a look at:
>>     http://micro.magnet.fsu.edu/primer/anatomy/cleaning.html
>>
>>     Most of this discussion of solvents only applies to immersion oil
>>     objectives, where the oil isn’t miscible in water. Our inverted
>>     microscopes with all air objectives are rarely cleaned, otherwise
>>     it’s just a blow with a puffer. On microscopes where oil and air
>>     co-exist it’s often immersion oil contamination of the air
>>     objective that’s the problem, so it’s solvents again. In the days
>>     when only my group operated the microscopes, with all our oil
>>     immersion free upright microscopes the objectives almost never
>>     needed cleaning.
>>
>>     For other spillages such as culture medium [inverted microscope
>>     again] some solvents will probably fix biological muck onto the
>>     lens, and there’s the salts content, so the use of water based
>>     cleaners has been suggested [e.g. even breathing on the lens and
>>     then lens tissue, using optical/glass cleaning solutions]. Water
>>     drying onto the lens is a disaster though. Some even recommend
>>     things like breaking polystyrene foam [to get a clean surface]
>>     and gently rubbing the [oil free] lens with that. Or there’s
>>     Sparkle - whatever that is, here in the UK it was a silicon based
>>     furniture polish [yuk] not a commercial window glass cleaner.
>>     That’s the problem with industrial cleaners, who knows what’s in
>>     them or whether the constituents have been modified – you could
>>     try it on an inconspicuous area of the objective lens first, I
>>     suppose. Presumably optical lens cleaners are glass friendly
>>     though, and many use glass cleaning products with no reported
>>     problems. All the links in the previous posts [below] give loads
>>     of ideas for cleaning objectives [when necessary].
>>
>>
>>
>>     http://www.zeiss.com/C1256F8500454979/0/F9B766E00E70F4C4C1256F8D0054FFF8/$file/thecleanmicroscope.pdf
>>
>>
>>
>>     http://books.google.com/books?id=Dhn2KispfdQC&pg=PA51&lpg=PA51&dq=petroleum+spirit+cleaning+objectives&source=bl&ots=JxlHfCVuF5&sig=NTJt3Ol66sgsB8gluF1eKpeXLCc&hl=en&ei=DfvRSdGpI5WrjAflkvjlBg&sa=X&oi=book_result&resnum=1&ct=result
>>     <http://books.google.com/books?id=Dhn2KispfdQC&pg=PA51&lpg=PA51&dq=petroleum+spirit+cleaning+objectives&source=bl&ots=JxlHfCVuF5&sig=NTJt3Ol66sgsB8gluF1eKpeXLCc&hl=en&ei=DfvRSdGpI5WrjAflkvjlBg&sa=X&oi=book_result&resnum=1&ct=result>
>>
>>
>>     http://www.microscopy-uk.org.uk/mag/indexmag.html?http://www.microscopy-uk.org.uk/mag/artfeb04/cdclean.html
>>
>>
>>     www.
>>     <http://www.olympus.co.uk/microscopy/images/illum_cleaning.pdf>
>>     olympus.co.uk/microscopy/images/illum_cleaning.pdf
>>     <http://www.olympus.co.uk/microscopy/images/illum_cleaning.pdf>
>>     http://www.olympusmicro.com/primer/techniques/fluorescence/troubleshoot.html
>>
>>
>>
>>     Keith
>>
>>     ---------------------------------------------------------------------------
>>     Dr Keith J. Morris,
>>     Molecular Cytogenetics and Microscopy Core,
>>     Laboratory 00/069 and 00/070,
>>     The Wellcome Trust Centre for Human Genetics,
>>     Roosevelt Drive,
>>     Oxford OX3 7BN,
>>     United Kingdom.
>>
>>     Telephone: +44 (0)1865 287568
>>     Email: [hidden email]
>>     Web-pages: http://www.well.ox.ac.uk/cytogenetics/
>>     ------------------------------------------------------------------------
>>     From: Confocal Microscopy List [
>>     mailto:[hidden email]] On Behalf Of Chris Tully
>>     Sent: 30 March 2009 16:40
>>     To: [hidden email]
>>     Subject: Re: Cleaning lens.
>>
>>
>>
>>     Dear all,
>>
>>     While working for a Leica Microsystems dealer the local field
>>     service engineer (factor trained) used a sequence of ethanol and
>>     heptane to clean truly dirty lenses. For standard cleaning a lens
>>     wipe and Sparkle was his recommendation. But for dried oil or the
>>     like he would graduate to cotton swabs and either ethanol then
>>     heptane or a 50:50 mix of the two.
>>
>>     Chris
>>
>>     Chris Tully
>>     Microscopy and Image Analysis Expert
>>     [hidden email] <mailto:[hidden email]>
>>     240-888-1021
>>     http://www.linkedin.com/in/christully
>>
>>     On Mon, Mar 30, 2009 at 10:12 AM, Ian Montgomery <
>>     [hidden email]
>>     <mailto:[hidden email]>> wrote:
>>
>>     Keith,
>>
>>     Methylated spirit that’s what he said, although I still prefer
>>     and use ether when necessary.
>>
>>     Ian.
>>
>>
>>
>>     Dr. Ian Montgomery,
>>
>>     Histotechnology,
>>
>>     I.B.L.S. Support Unit,
>>
>>     Thomson Building,
>>
>>     University of Glasgow,
>>
>>     Glasgow,
>>
>>     G12 8QQ.
>>     ------------------------------------------------------------------------
>>     From: Confocal Microscopy List [
>>     mailto:[hidden email]] On Behalf Of Keith Morris
>>     Sent: 30 March 2009 14:12
>>
>>
>>     To: [hidden email]
>>     <mailto:[hidden email]>
>>
>>     Subject: Re: Cleaning lens.
>>
>>
>>
>>     Are you sure the Zeiss Engineer didn’t say ‘petroleum spirit’?
>>     Methylated spirit is mainly ethanol, and so best avoided - the
>>     Axiovert 100 manual says repeated use of 70% ethanol will damage
>>     the objectives [but you can use it if you want]. Generally the
>>     faster the solvent evaporation from the lens/cement area the
>>     better, hence the suggestion of the solvent [pure] diethyl ether
>>     by many [and that’s what I use].
>>
>>
>>
>>     ‘Zeiss cleaning mixture L’, which the engineer’s now use since
>>     diethyl ether has been withdrawn from their kit, is 90% by volume
>>     ‘benzoline’ [petroleum ether sometimes called medical alcohol]
>>     and 10% ‘isopropanol’ [2-proponal, dimethyl carbinol,
>>     2-hydroxyproparne]. The bottle says ‘Clean the optics by moving
>>     in circles, slight pressure should be exerted on optics during
>>     cleaning’. Petroleum ether or spirit isn’t the same as the
>>     diethyl ether solvent/anaesthetic often used to clean objectives,
>>     but apparently it does the job for Zeiss optics.
>>
>>
>>
>>     Keith
>>
>>     ---------------------------------------------------------------------------
>>     Dr Keith J. Morris,
>>     Molecular Cytogenetics and Microscopy Core,
>>     Laboratory 00/069 and 00/070,
>>     The Wellcome Trust Centre for Human Genetics,
>>     Roosevelt Drive,
>>     Oxford OX3 7BN,
>>     United Kingdom.
>>
>>     Telephone: +44 (0)1865 287568
>>     Email: [hidden email] <mailto:[hidden email]>
>>     Web-pages: http://www.well.ox.ac.uk/cytogenetics/
>>     ------------------------------------------------------------------------
>>     From: Confocal Microscopy List [
>>     mailto:[hidden email]] On Behalf Of Ian Montgomery
>>     Sent: 30 March 2009 12:28
>>     To: [hidden email]
>>     <mailto:[hidden email]>
>>     Subject: Cleaning lens.
>>
>>
>>
>>     In one of our teaching labs many years ago a student complained
>>     they were having a problem with the x100 OI objective and sure
>>     enough the image was lousy. I cleaned the objective and slide
>>     then re-applied a spot of oil and still the image was lousy. I
>>     then asked the student how exactly they had set up the
>>     microscope. Shock horror, my world collapsed. They had unscrewed
>>     the objective, filled it with oil, screwed it back on then put a
>>     drop on the slide. After weeks of trying to clean the objective
>>     it went into the trash as beyond economic repair.
>>
>>     Cleaning objectives, I use the fluid recommended by the local
>>     Zeiss engineer, 90% methylated spirit and 10% isopropanol.
>>
>>     Ian.
>>
>>
>>
>>     Dr. Ian Montgomery,
>>
>>     Histotechnology,
>>
>>     I.B.L.S. Support Unit,
>>
>>     Thomson Building,
>>
>>     University of Glasgow,
>>
>>     Glasgow,
>>
>>     G12 8QQ.
>>
>>
>>
>>
>>
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>
> Dr Barry O'Brien
> Dept of Biological Sciences,
> University of Waikato
> Private Bag 3105
> HAMILTON
> New Zealand
>
> Fax 0064 7 838 4324
> Phone 0064 7 838 4179