Closed Heated Environment
 

Microscopy Imaging > Incubator Temperature Control
High stability, no noise Precision Temperature Controller TC-1-100i to operate miniature incubators

Easy to use and flexible controls for stable operation.  Independent second channel for the incubator lid. Can be used with Temperature controlled microscope stages..
  • Plastic-encapsulated external probes (optional): no metal ions leakage into solutions
  • Stability 0.01°C, self-adjusting
  • Built-in overheating protection
  • Analog and RS232 Inputs for programmed temperature changes
  • Analog Outputs to monitor temperature
  • No vibrations during imaging and recording - no internal fan.
Designed to operate miniature incubators by utilizing channel I to independently heat the lid, and channel II the base of the incubator. Includes connecting cables. An external temperature probe might be needed, to monitor bath temperature. Sample publications.

Specifications:

Range:

up to 150°C with accuracy 0.1°C

Temperature probe:

miniature 0.87mm diameter (optional)

Stability:

0.01°C, self-adjusting; required for sensitive applications: nano/piezo positioning, confocal imaging for example

Settings:

allow to stabilize temperature in different sample volumes and heating stage sizes

Feedback:

Stage sensors, built-in in the base and the lid

Input:

100-240VAC

Dimensions:

8x4x9in.


Click on catalog numbers below to purchase online.

Required accessories: incubator.

Download PDF manual.

Download PDF catalog.
Bioscience Tools
ph: 877-853-9755, fax: 866-533-7490
email: info@biosciencetools.com

PRICES AND OPTIONS

TC-1-100-I

$2,495

2-Channel Temperature Controller, high stability, to operate miniature incubators

TC-TP

$295

Miniature 0.87mm temperature Probe

Sample publications:
10 Resveratrol Preconditioning Protects Against Ischemia-Induced Synaptic Dysfunction and Cofilin Hyperactivation in the Mouse Hippocampal Slice. Neurotherapeutics Volume 20, Issue 4, July 2023, Pages 1177-1197;
9 Redox differences between rat neonatal and adult cardiomyocytes under hypoxia. Free Radical Biology and Medicine, Volume 211, 1 February 2024, Pages 145-157;
8 Hydrogen peroxide is not generated intracellularly in human neural spheroids during ischemia-reperfusion. Free Radical Biology and Medicine Volume 212, 20 February 2024, Pages 234-240;
7 Hyperglycemia exacerbates ischemic stroke not through increased generation of hydrogen peroxide. Free Radical Biology and Medicine, Volume 208, 1 November 2023, Pages 153-164;
6 A Dynamic Balance between Neuronal Death and Clearance in an in Vitro Model of Acute Brain Injury. Journal of Neuroscience 23 August 2023, 43 (34) 6084-6107;
5 OrganoidChip facilitates hydrogel-free immobilization for fast and blur-free imaging of organoids. Nature, 11268 (2023);
4 On-site genetic analysis for species identification using lab-on-a-chip. Ecol Evol. 2021 Feb; 11(4): 1535–1543;
3 Developing Analysis Protocols for Monitoring Intracellular Oxygenation using Fluorescence Lifetime Imaging of Myoglobin-mCherry. Methods in Molecular Biology, 01 Jan 2021, 2304:315-337;
2 In vivo dynamics of acidosis and oxidative stress in the acute phase of an ischemic stroke in a rodent model. j.redox.2021.102178;
1 Micropumps for Liquid Transport inside Biomimetic and Microfabricated Devices