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A mechanism for controlling the mixing of highly viscous biosamples at the microliter scale is presented. Existing methods for mixing biosamples using microstirrers or shaking microwells are only effective for non-highly viscous materials. The proposed mechanism mixes monoolein, a highly viscous biosample, with water/membrane protein solution in a microdevice called microcapsule using a microchannel...
Micro-mixing of a highly viscous bio-sample with water using orbital shaking and micro-channels is considered. Existing methods mix bio-samples by only shaking micro-wells or by specially designed micro-stirrers which are ineffective or inapplicable for highly viscous materials. Our method mixes a viscous bio-samples with water in micro-wells using orbital shaking plus an innovative block which divides...
A mechanism for controlling the mixing of highly viscous bio-samples at the micro-liter scale is presented. Existing methods for mixing bio-samples using micro-stirrers or shaking micro-wells are only effective for non-highly-viscous materials. The proposed mechanism mixes monoolein, a highly viscous bio-sample, with water in a micro-device called micro-capsule using a micro-channel and centrifugation...
Micro-mixing of highly viscous bio-samples is considered. Existing methods mix bio-samples by only shaking micro-wells or by specially designed micro-stirrers which are ineffective or unapplicable for highly viscous materials, letting alone small volumes at microliter or nanoliter level. Our method mixes viscous bio-samples in micro-wells using orbital shaking plus an innovative block which is built...
Automatic mixing of highly viscous bio-samples using orbital shaking and micro-channels is considered. Existing methods for mixing bio-samples for life science applications use micro-well and micro-stirrer which are ineffective for highly viscous materials at the microliter or nanoliter level. Our method mixes viscous bio-samples in micro-wells using orbital shaking and micro-channels. To understand...
Automatic mixing of highly viscous bio-samples using micro-channel and centrifugation is considered. Existing methods for mixing bio-samples for life science applications use micro-well and micro-stirrer which are ineffective for highly viscous materials at the microliter or nanoliter level. Our method mixes viscous bio-samples in micro-capsules using micro-channels and centrifugation. To understand...
Automatic mixing of bio-samples using micro-channel and centrifugation is considered. Existing methods for mixing bio-samples for life science applications use micro-well and micro-stirrer which are ineffective when used with highly viscous materials at the microliter or nanoliter level. Our method mixes viscous bio-samples in micro-capsules using micro-channel and centrifugation which minimizes contact...
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