IN SITU TEM SOLUTIONS & SAMPLE SUPPORTS

Protochips’ robust, easy-to-use in situ microscopy solutions TEM holders and sample supports enable accurate quantitative measurement of your samples under natural conditions and provide new perspectives on a wide range of in situ research applications.

AXON

Revolutionizing the in situ TEM workflow

AXON redefines the in situ experience by linking the TEM, detectors and in situ systems together with a revolutionary new software platform.

It improves data quality, enhances and extends your current microscope capabilities and makes in situ experiments easier for the novice to most advanced users. The AXON platform is a module-based software solution.

Easily plug in new modules as they are released, and your system will stay up to date with the latest features.

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

Atmosphere

The Atmosphere system introduces realistic, environmental temperatures and pressures inside the TEM, enabling you to image materials and processes in real-time.

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

Poseidon Select

Poseidon Select seals a liquid environment between two electron-transparent membranes allowing you to observe real-time behavior within native liquid samples.

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

Fusion Select

Fusion Select precisely controls thermal and electrical processes within the electron microscope, allowing you to explore sample behavior during heating and cooling.

eyJpZCI6IjE0IiwibGFiZWwiOiJJVF9TaXN0ZW1pIE1lZGljYWxpIC0gSGVsaW9zIERSRiIsImFjdGl2ZSI6IjEiLCJvcmlnaW5hbF9pZCI6IjQiLCJ1bmlxdWVfaWQiOiJ2Ym4yM2EiLCJwYXJhbXMiOnsiZW5hYmxlRm9yTWVtYmVyc2hpcCI6IjAiLCJ0cGwiOnsid2lkdGgiOiIxMDAiLCJ3aWR0aF9tZWFzdXJlIjoiJSIsImJnX3R5cGVfMCI6Im5vbmUiLCJiZ19pbWdfMCI6IiIsImJnX2NvbG9yXzAiOiIjY2RjZGNkIiwiYmdfdHlwZV8xIjoiY29sb3IiLCJiZ19pbWdfMSI6IiIsImJnX2NvbG9yXzEiOiIjY2RjZGNkIiwiYmdfdHlwZV8yIjoiY29sb3IiLCJiZ19pbWdfMiI6IiIsImJnX2NvbG9yXzIiOiIjMDA3ZGIzIiwiYmdfdHlwZV8zIjoiY29sb3IiLCJiZ19pbWdfMyI6IiIsImJnX2NvbG9yXzMiOiIjZmY4MDdjIiwiZmllbGRfZXJyb3JfaW52YWxpZCI6IkNvbXBpbGEgcXVlc3RvIGNhbXBvIiwiZm9ybV9zZW50X21zZyI6IkdyYXppZSBwZXIgQXZlcmNpIENvbnRhdHRhdG8hIiwiZm9ybV9zZW50X21zZ19jb2xvciI6IiMwMDdkYjMiLCJoaWRlX29uX3N1Ym1pdCI6IjEiLCJyZWRpcmVjdF9vbl9zdWJtaXQiOiIiLCJ0ZXN0X2VtYWlsIjoiaWN0QGFzc2luZy5pdCIsInNhdmVfY29udGFjdHMiOiIxIiwiZXhwX2RlbGltIjoiOyIsImZiX2NvbnZlcnRfYmFzZSI6IiIsInB1Yl9wb3N0X3R5cGUiOiJwb3N0IiwicHViX3Bvc3Rfc3RhdHVzIjoicHVibGlzaCIsInJlZ193cF9jcmVhdGVfdXNlcl9yb2xlIjoic3Vic2NyaWJlciIsImZpZWxkX3dyYXBwZXIiOiI8ZGl2IFtmaWVsZF9zaGVsbF9jbGFzc2VzXSBbZmllbGRfc2hlbGxfc3R5bGVzXT5bZmllbGRdPFwvZGl2PiJ9LCJmaWVsZHMiOlt7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoiZmlyc3RfbmFtZSIsImxhYmVsIjoiIiwicGxhY2Vob2xkZXIiOiJOYW1lIiwidmFsdWUiOiIiLCJodG1sIjoidGV4dCIsIm1hbmRhdG9yeSI6IjEiLCJtaW5fc2l6ZSI6IiIsIm1heF9zaXplIjoiIiwiYWRkX2NsYXNzZXMiOiIiLCJhZGRfc3R5bGVzIjoiIiwiYWRkX2F0dHIiOiIiLCJ2bl9vbmx5X251bWJlciI6IjAiLCJ2bl9vbmx5X2xldHRlcnMiOiIwIiwidm5fcGF0dGVybiI6IjAifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoiZW1haWwiLCJsYWJlbCI6IiIsInBsYWNlaG9sZGVyIjoiRW1haWwiLCJ2YWx1ZSI6IiIsInZhbHVlX3ByZXNldCI6IiIsImh0bWwiOiJlbWFpbCIsIm1hbmRhdG9yeSI6IjEiLCJtaW5fc2l6ZSI6IiIsIm1heF9zaXplIjoiIiwiYWRkX2NsYXNzZXMiOiIiLCJhZGRfc3R5bGVzIjoiIiwiYWRkX2F0dHIiOiIiLCJ2bl9vbmx5X251bWJlciI6IjAiLCJ2bl9vbmx5X2xldHRlcnMiOiIwIiwidm5fcGF0dGVybiI6IjAiLCJ2bl9lcXVhbCI6IiJ9LHsiYnNfY2xhc3NfaWQiOiIxMiIsIm5hbWUiOiJzdWJqZWN0IiwibGFiZWwiOiIiLCJwbGFjZWhvbGRlciI6IlBob25lIE51bWJlciIsInZhbHVlIjoiIiwidmFsdWVfcHJlc2V0IjoiIiwiaHRtbCI6InRleHQiLCJtYW5kYXRvcnkiOiIwIiwibWluX3NpemUiOiIiLCJtYXhfc2l6ZSI6IiIsImFkZF9jbGFzc2VzIjoiIiwiYWRkX3N0eWxlcyI6IiIsImFkZF9hdHRyIjoiIiwidm5fb25seV9udW1iZXIiOiIwIiwidm5fb25seV9sZXR0ZXJzIjoiMCIsInZuX3BhdHRlcm4iOiIwIiwidm5fZXF1YWwiOiIifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoibWVzc2FnZSIsImxhYmVsIjoiIiwicGxhY2Vob2xkZXIiOiJNZXNzYWdlIiwidmFsdWUiOiIiLCJodG1sIjoidGV4dGFyZWEiLCJtYW5kYXRvcnkiOiIxIiwibWluX3NpemUiOiIiLCJtYXhfc2l6ZSI6IiIsImFkZF9jbGFzc2VzIjoiIiwiYWRkX3N0eWxlcyI6IiIsImFkZF9hdHRyIjoiIiwidm5fb25seV9udW1iZXIiOiIwIiwidm5fb25seV9sZXR0ZXJzIjoiMCIsInZuX3BhdHRlcm4iOiIwIn0seyJic19jbGFzc19pZCI6IjEyIiwidmFsdWUiOiI8ZGl2IGNsYXNzPVwiY2ZzRmllbGRTaGVsbCBjZnNGaWVsZF9jaGVja2JveFwiPjxsYWJlbCBjbGFzcz1cImNmc0NoZWNrXCI+R2VudGlsZSBVdGVudGUsIGNvbiBsYSBwcmVzZW50ZSBMYSBpbmZvcm1pYW1vIGNoZSBkYXRpIGRhIGxlaSBmb3JuaXRpIHNhcmFubm8gdHJhdHRhdGkgc2VndWVuZG8gaSBwcmluY2lwaSBkaSBjb3JyZXR0ZXp6YSwgbGljZWl0XHUwMGUwIGUgdHJhc3BhcmVuemEgZSBkaSB0dXRlbGEgZGVsbGEgU3VhIHJpc2VydmF0ZXp6YSBlIGRlaSBTdW9pIGRpcml0dGkuIEluIHBhcnRpY29sYXJlOiAxLiBJIGRhdGkgZGEgTGVpIGZvcm5pdGkgdmVycmFubm8gdHJhdHRhdGkgZXNjbHVzaXZhbWVudGUgcGVyIHJpc3BvbmRlcmUgYWkgc3VvaSBxdWVzaXRpLiAyLiBJIFN1b2kgZGF0aSBpZGVudGlmaWNhdGl2aSB2ZXJyYW5ubyB0cmF0dGF0aSBlc2NsdXNpdmFtZW50ZSBkYSBub3N0cmkgZGlwZW5kZW50aSwgY29zXHUwMGVjIGNvbWUgaWRlbnRpZmljYXRpIG5lbGxvIHNwZWNpZmljbyBvcmdhbmlncmFtbWEgYXppZW5kYWxlLiBEZXR0byBvcmdhbmlncmFtbWEgXHUwMGU4IGEgU3VhIGRpc3Bvc2l6aW9uZSBpbiBxdWFsc2lhc2kgbW9tZW50byBMZWkgaW50ZW5kYSByaWNoaWVkZXJsby4gSSBkYXRpIG5vbiBzYXJhbm5vIG9nZ2V0dG8gZGkgY29tdW5pY2F6aW9uZSBlXC9vIGRpZmZ1c2lvbmUgYSBzb2dnZXR0aSBlc3Rlcm5pIHNlbnphIHVuYSBTdWEgcHJldmVudGl2YSBhdXRvcml6emF6aW9uZS4gMy4gSSBTdW9pIGRhdGkgdmVycmFubm8gY29uc2VydmF0aSBuZWkgbm9zdHJpIGFyY2hpdmkgcGVyIGlsIHRlbXBvIG5lY2Vzc2FyaW8gYSBjb21wbGV0YXJlIGxlIFN1ZSByaWNoaWVzdGUuIElsIGNvbmZlcmltZW50byBkZWkgU3VvaSBkYXRpIGlkZW50aWZpY2F0aXZpIFx1MDBlOCBvdnZpYW1lbnRlIG9iYmxpZ2F0b3JpbyBlZCBpbiBsb3JvIGFzc2VuemEgbGEgbm9zdHJhIEF6aWVuZGEgc2kgdHJvdmVyXHUwMGUwIG5lbGxcdTIwMTlpbXBvc3NpYmlsaXRcdTAwZTAgZGkgcmlzcG9uZGVyZSBhbGxlIHN1ZSByaWNoaWVzdGUuPFwvbGFiZWw+PFwvZGl2PiIsImh0bWwiOiJodG1sZGVsaW0iLCJtYW5kYXRvcnkiOiIwIn0seyJic19jbGFzc19pZCI6IjEyIiwibmFtZSI6IkluZm9ybWF0aXZhX1ByaXZhY3kiLCJsYWJlbCI6IiZuYnNwO0hvIExldHRvIGUgQWNjZXR0byBsJ0luZm9ybWF0aXZhIHN1bGxhIFByaXZhY3kiLCJ2YWx1ZSI6IiIsInZhbHVlX3ByZXNldCI6IiIsImh0bWwiOiJjaGVja2JveCIsImRlZl9jaGVja2VkIjoiMCIsIm1hbmRhdG9yeSI6IjEiLCJhZGRfY2xhc3NlcyI6IiIsImFkZF9zdHlsZXMiOiIiLCJhZGRfYXR0ciI6IiIsImljb25fY2xhc3MiOiIiLCJpY29uX3NpemUiOiIiLCJpY29uX2NvbG9yIjoiIiwidGVybXMiOiIifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoic2VuZCIsImxhYmVsIjoiU2VuZCIsImh0bWwiOiJzdWJtaXQiLCJhZGRfY2xhc3NlcyI6IiIsImFkZF9zdHlsZXMiOiIiLCJhZGRfYXR0ciI6IiJ9XSwib3B0c19hdHRycyI6eyJiZ19udW1iZXIiOiI0In19LCJpbWdfcHJldmlldyI6InNpbXBsZS13aGl0ZS5wbmciLCJ2aWV3cyI6IjMxMzYiLCJ1bmlxdWVfdmlld3MiOiIxNDQzIiwiYWN0aW9ucyI6IjEiLCJzb3J0X29yZGVyIjoiMTAiLCJpc19wcm8iOiIwIiwiYWJfaWQiOiIwIiwiZGF0ZV9jcmVhdGVkIjoiMjAxNy0wMS0xMyAwOTozMToyNSIsImltZ19wcmV2aWV3X3VybCI6Imh0dHBzOlwvXC9zdXBzeXN0aWMtNDJkNy5reGNkbi5jb21cL19hc3NldHNcL2Zvcm1zXC9pbWdcL3ByZXZpZXdcL3NpbXBsZS13aGl0ZS5wbmciLCJ2aWV3X2lkIjoiMTRfMjEzNjc0Iiwidmlld19odG1sX2lkIjoiY3NwRm9ybVNoZWxsXzE0XzIxMzY3NCIsImNvbm5lY3RfaGFzaCI6IjRmZTk2Y2U0NTFjYWVmNWExNWZiYzgzNjIxZDk0NWIyIn0=

E-Chips

E-chips support and confine samples for all of our in situ products.

Using semiconductor fabrication technology, E-chips deliver electrical and heating stimuli to samples.

They also provide thin, robust electron transparent windows to create a hermetically sealed environmental cell inside the TEM.

eyJpZCI6IjE0IiwibGFiZWwiOiJJVF9TaXN0ZW1pIE1lZGljYWxpIC0gSGVsaW9zIERSRiIsImFjdGl2ZSI6IjEiLCJvcmlnaW5hbF9pZCI6IjQiLCJ1bmlxdWVfaWQiOiJ2Ym4yM2EiLCJwYXJhbXMiOnsiZW5hYmxlRm9yTWVtYmVyc2hpcCI6IjAiLCJ0cGwiOnsid2lkdGgiOiIxMDAiLCJ3aWR0aF9tZWFzdXJlIjoiJSIsImJnX3R5cGVfMCI6Im5vbmUiLCJiZ19pbWdfMCI6IiIsImJnX2NvbG9yXzAiOiIjY2RjZGNkIiwiYmdfdHlwZV8xIjoiY29sb3IiLCJiZ19pbWdfMSI6IiIsImJnX2NvbG9yXzEiOiIjY2RjZGNkIiwiYmdfdHlwZV8yIjoiY29sb3IiLCJiZ19pbWdfMiI6IiIsImJnX2NvbG9yXzIiOiIjMDA3ZGIzIiwiYmdfdHlwZV8zIjoiY29sb3IiLCJiZ19pbWdfMyI6IiIsImJnX2NvbG9yXzMiOiIjZmY4MDdjIiwiZmllbGRfZXJyb3JfaW52YWxpZCI6IkNvbXBpbGEgcXVlc3RvIGNhbXBvIiwiZm9ybV9zZW50X21zZyI6IkdyYXppZSBwZXIgQXZlcmNpIENvbnRhdHRhdG8hIiwiZm9ybV9zZW50X21zZ19jb2xvciI6IiMwMDdkYjMiLCJoaWRlX29uX3N1Ym1pdCI6IjEiLCJyZWRpcmVjdF9vbl9zdWJtaXQiOiIiLCJ0ZXN0X2VtYWlsIjoiaWN0QGFzc2luZy5pdCIsInNhdmVfY29udGFjdHMiOiIxIiwiZXhwX2RlbGltIjoiOyIsImZiX2NvbnZlcnRfYmFzZSI6IiIsInB1Yl9wb3N0X3R5cGUiOiJwb3N0IiwicHViX3Bvc3Rfc3RhdHVzIjoicHVibGlzaCIsInJlZ193cF9jcmVhdGVfdXNlcl9yb2xlIjoic3Vic2NyaWJlciIsImZpZWxkX3dyYXBwZXIiOiI8ZGl2IFtmaWVsZF9zaGVsbF9jbGFzc2VzXSBbZmllbGRfc2hlbGxfc3R5bGVzXT5bZmllbGRdPFwvZGl2PiJ9LCJmaWVsZHMiOlt7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoiZmlyc3RfbmFtZSIsImxhYmVsIjoiIiwicGxhY2Vob2xkZXIiOiJOYW1lIiwidmFsdWUiOiIiLCJodG1sIjoidGV4dCIsIm1hbmRhdG9yeSI6IjEiLCJtaW5fc2l6ZSI6IiIsIm1heF9zaXplIjoiIiwiYWRkX2NsYXNzZXMiOiIiLCJhZGRfc3R5bGVzIjoiIiwiYWRkX2F0dHIiOiIiLCJ2bl9vbmx5X251bWJlciI6IjAiLCJ2bl9vbmx5X2xldHRlcnMiOiIwIiwidm5fcGF0dGVybiI6IjAifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoiZW1haWwiLCJsYWJlbCI6IiIsInBsYWNlaG9sZGVyIjoiRW1haWwiLCJ2YWx1ZSI6IiIsInZhbHVlX3ByZXNldCI6IiIsImh0bWwiOiJlbWFpbCIsIm1hbmRhdG9yeSI6IjEiLCJtaW5fc2l6ZSI6IiIsIm1heF9zaXplIjoiIiwiYWRkX2NsYXNzZXMiOiIiLCJhZGRfc3R5bGVzIjoiIiwiYWRkX2F0dHIiOiIiLCJ2bl9vbmx5X251bWJlciI6IjAiLCJ2bl9vbmx5X2xldHRlcnMiOiIwIiwidm5fcGF0dGVybiI6IjAiLCJ2bl9lcXVhbCI6IiJ9LHsiYnNfY2xhc3NfaWQiOiIxMiIsIm5hbWUiOiJzdWJqZWN0IiwibGFiZWwiOiIiLCJwbGFjZWhvbGRlciI6IlBob25lIE51bWJlciIsInZhbHVlIjoiIiwidmFsdWVfcHJlc2V0IjoiIiwiaHRtbCI6InRleHQiLCJtYW5kYXRvcnkiOiIwIiwibWluX3NpemUiOiIiLCJtYXhfc2l6ZSI6IiIsImFkZF9jbGFzc2VzIjoiIiwiYWRkX3N0eWxlcyI6IiIsImFkZF9hdHRyIjoiIiwidm5fb25seV9udW1iZXIiOiIwIiwidm5fb25seV9sZXR0ZXJzIjoiMCIsInZuX3BhdHRlcm4iOiIwIiwidm5fZXF1YWwiOiIifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoibWVzc2FnZSIsImxhYmVsIjoiIiwicGxhY2Vob2xkZXIiOiJNZXNzYWdlIiwidmFsdWUiOiIiLCJodG1sIjoidGV4dGFyZWEiLCJtYW5kYXRvcnkiOiIxIiwibWluX3NpemUiOiIiLCJtYXhfc2l6ZSI6IiIsImFkZF9jbGFzc2VzIjoiIiwiYWRkX3N0eWxlcyI6IiIsImFkZF9hdHRyIjoiIiwidm5fb25seV9udW1iZXIiOiIwIiwidm5fb25seV9sZXR0ZXJzIjoiMCIsInZuX3BhdHRlcm4iOiIwIn0seyJic19jbGFzc19pZCI6IjEyIiwidmFsdWUiOiI8ZGl2IGNsYXNzPVwiY2ZzRmllbGRTaGVsbCBjZnNGaWVsZF9jaGVja2JveFwiPjxsYWJlbCBjbGFzcz1cImNmc0NoZWNrXCI+R2VudGlsZSBVdGVudGUsIGNvbiBsYSBwcmVzZW50ZSBMYSBpbmZvcm1pYW1vIGNoZSBkYXRpIGRhIGxlaSBmb3JuaXRpIHNhcmFubm8gdHJhdHRhdGkgc2VndWVuZG8gaSBwcmluY2lwaSBkaSBjb3JyZXR0ZXp6YSwgbGljZWl0XHUwMGUwIGUgdHJhc3BhcmVuemEgZSBkaSB0dXRlbGEgZGVsbGEgU3VhIHJpc2VydmF0ZXp6YSBlIGRlaSBTdW9pIGRpcml0dGkuIEluIHBhcnRpY29sYXJlOiAxLiBJIGRhdGkgZGEgTGVpIGZvcm5pdGkgdmVycmFubm8gdHJhdHRhdGkgZXNjbHVzaXZhbWVudGUgcGVyIHJpc3BvbmRlcmUgYWkgc3VvaSBxdWVzaXRpLiAyLiBJIFN1b2kgZGF0aSBpZGVudGlmaWNhdGl2aSB2ZXJyYW5ubyB0cmF0dGF0aSBlc2NsdXNpdmFtZW50ZSBkYSBub3N0cmkgZGlwZW5kZW50aSwgY29zXHUwMGVjIGNvbWUgaWRlbnRpZmljYXRpIG5lbGxvIHNwZWNpZmljbyBvcmdhbmlncmFtbWEgYXppZW5kYWxlLiBEZXR0byBvcmdhbmlncmFtbWEgXHUwMGU4IGEgU3VhIGRpc3Bvc2l6aW9uZSBpbiBxdWFsc2lhc2kgbW9tZW50byBMZWkgaW50ZW5kYSByaWNoaWVkZXJsby4gSSBkYXRpIG5vbiBzYXJhbm5vIG9nZ2V0dG8gZGkgY29tdW5pY2F6aW9uZSBlXC9vIGRpZmZ1c2lvbmUgYSBzb2dnZXR0aSBlc3Rlcm5pIHNlbnphIHVuYSBTdWEgcHJldmVudGl2YSBhdXRvcml6emF6aW9uZS4gMy4gSSBTdW9pIGRhdGkgdmVycmFubm8gY29uc2VydmF0aSBuZWkgbm9zdHJpIGFyY2hpdmkgcGVyIGlsIHRlbXBvIG5lY2Vzc2FyaW8gYSBjb21wbGV0YXJlIGxlIFN1ZSByaWNoaWVzdGUuIElsIGNvbmZlcmltZW50byBkZWkgU3VvaSBkYXRpIGlkZW50aWZpY2F0aXZpIFx1MDBlOCBvdnZpYW1lbnRlIG9iYmxpZ2F0b3JpbyBlZCBpbiBsb3JvIGFzc2VuemEgbGEgbm9zdHJhIEF6aWVuZGEgc2kgdHJvdmVyXHUwMGUwIG5lbGxcdTIwMTlpbXBvc3NpYmlsaXRcdTAwZTAgZGkgcmlzcG9uZGVyZSBhbGxlIHN1ZSByaWNoaWVzdGUuPFwvbGFiZWw+PFwvZGl2PiIsImh0bWwiOiJodG1sZGVsaW0iLCJtYW5kYXRvcnkiOiIwIn0seyJic19jbGFzc19pZCI6IjEyIiwibmFtZSI6IkluZm9ybWF0aXZhX1ByaXZhY3kiLCJsYWJlbCI6IiZuYnNwO0hvIExldHRvIGUgQWNjZXR0byBsJ0luZm9ybWF0aXZhIHN1bGxhIFByaXZhY3kiLCJ2YWx1ZSI6IiIsInZhbHVlX3ByZXNldCI6IiIsImh0bWwiOiJjaGVja2JveCIsImRlZl9jaGVja2VkIjoiMCIsIm1hbmRhdG9yeSI6IjEiLCJhZGRfY2xhc3NlcyI6IiIsImFkZF9zdHlsZXMiOiIiLCJhZGRfYXR0ciI6IiIsImljb25fY2xhc3MiOiIiLCJpY29uX3NpemUiOiIiLCJpY29uX2NvbG9yIjoiIiwidGVybXMiOiIifSx7ImJzX2NsYXNzX2lkIjoiMTIiLCJuYW1lIjoic2VuZCIsImxhYmVsIjoiU2VuZCIsImh0bWwiOiJzdWJtaXQiLCJhZGRfY2xhc3NlcyI6IiIsImFkZF9zdHlsZXMiOiIiLCJhZGRfYXR0ciI6IiJ9XSwib3B0c19hdHRycyI6eyJiZ19udW1iZXIiOiI0In19LCJpbWdfcHJldmlldyI6InNpbXBsZS13aGl0ZS5wbmciLCJ2aWV3cyI6IjMxMzYiLCJ1bmlxdWVfdmlld3MiOiIxNDQzIiwiYWN0aW9ucyI6IjEiLCJzb3J0X29yZGVyIjoiMTAiLCJpc19wcm8iOiIwIiwiYWJfaWQiOiIwIiwiZGF0ZV9jcmVhdGVkIjoiMjAxNy0wMS0xMyAwOTozMToyNSIsImltZ19wcmV2aWV3X3VybCI6Imh0dHBzOlwvXC9zdXBzeXN0aWMtNDJkNy5reGNkbi5jb21cL19hc3NldHNcL2Zvcm1zXC9pbWdcL3ByZXZpZXdcL3NpbXBsZS13aGl0ZS5wbmciLCJ2aWV3X2lkIjoiMTRfNTMwOTMiLCJ2aWV3X2h0bWxfaWQiOiJjc3BGb3JtU2hlbGxfMTRfNTMwOTMiLCJjb25uZWN0X2hhc2giOiI0ZmU5NmNlNDUxY2FlZjVhMTVmYmM4MzYyMWQ5NDViMiJ9

HOLEY FILM TEM GRIDS

Premier sample supports with holey thin film coatings perfectly suited for Cryo-EM.

With no plastics or residues, our grids are ready to use with no additional cleaning or handling steps.

We offer a variety of hole patterns, mesh sizes, mesh materials, film materials, and thick or thin film options, so there is always a product optimized for your needs.

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