| Cat Number | Application | Specification |
| NS-Mito-OCR-650nm | The nanoprobe can actively target mitochondria in living cells, and use its fluorescence to measure oxygen consumption rate (OCR) and respiration related energy metabolism. Measurements based on these nanoprobes have higher sensitivity than Agilent Seahorse Analyzer, and can measure OCR at single cell level. You can also use the reagent to measure mitochondrial function under stimulus and testing medicine. The reagent is fully compatible with microtiter plate reader equipped with time-resolved fluorescence measurement module. | 100T |
| NS-EC-OCR-650nm | This reagent is used for measuring extracellular oxygen consumption rate (OCR), which has similar sensitivity as Agilent Seahorse Analyzer. It is fully compatible with microtiter plate reader equipped with time-resolved fluorescence measurement module. You can also use the reagent to measure mitochondrial function under stimulus and testing medicine. | 100T |
| NS-LySO-OCR-600nm | The nanoprobes can actively target lysosomes in living cells and measure oxygen consumption rate (OCR) in these organelles. It is fully compatible with microtiter plate reader equipped with fluorescence measurement module. | 100T |
| NS-ECAR-615nm | The reagent is used to measure extracellular acidification rate (ECAR) of living cells. You can get similar results as Agilent Seahorse Analyzer, but with high throughput mode. It is fully compatible with microtiter plate reader equipped with time-resolved fluorescence measurement module. You can also use the reagent to measure glycolysis function under stimulus and testing medicine. | 100T |
| NS-SM-Covering oil | This is the covering oil that is used to measure OCR and ECAR in the 96-well plate. | 100T |
| NS-SM-GOx | The glucose oxidase is used as positive control for measuring OCR | 100T |
| NS-SM-CCCP | CCCP is the oxphos decoupler that is used in OCR measurement and regulate mitochondrial function | 100T |
| NS-SM-ROT | Rotenone is a reagent to regulate the activity of mitochondrial complex I, and is useful in OCR measurement | 100T |
| NS-SM-AMA | Antimycin A is a reagent to regulate the activity of mitochondrial complex III, and is useful in OCR measurement | 100T |
| NS-SM-2DG | 2DG is used as the negative control in ECAR measurement, which is an inhibitor of glycolysis | 100T |
| NS-Lyso-Cl-485nm | The nanoprobes can actively target lysosome in living cells, and measure the flux of chloride ion in lysosome. The reagent can reversibly measure changes of chloride concentration in living lysosomes. | 100T |
| NS-T-610nm | The nanoprobes have very sharp luminescence peak at 610nm, which can measure temperature in living cells with high sensitivity in the physiological range, we offer nanoprobes that can actively target different intracellular organelles. | 100T |
| NS-T-600nm | The nanoprobes have bright fluorescence, and can measure temperature in living cells with good sensitivity, we can also offer nanoprobes that can actively target different intracellular organelles. | |
| FP-02-600nm | The water-soluble fluorescent probe is used to measure dissolved oxygen concentration in aqueous solution, which has fully reversible oxygen response and excellent water solubility. | 100T |
| FP-02-650nm | The water-soluble fluorescent probe is used to measure dissolved oxygen concentration in aqueous solution, which has fully reversible oxygen response and excellent water solubility. The probe has large Stokes shift, and can be efficiently excited using green laser. | 100T |
| FP-HPX-610nm | The fluorescent probe is used to image the hypoxia status of living cells. When the oxygen concentration in living cells is below 5%, the probe emits bright red luminescence. The response is fully reversible, which allow users to monitor the hypoxia status in living cells in real time. | 100T |
| FP-Cl-610nm | The fluorescent probe is used to quantitatively measure chloride ion concentration in samples, and the response is fully reversible. | 100T |
| FP-Na-530nm | The fluorescent probe is used to quantitatively measure sodium ion concentration in samples, and the response is fully reversible. | 100T |
| FP-ATP-570nm | The fluorescent probe is used to quantitatively measure ATP concentration in samples, and the response is fully reversible. | 100T |
| FP-SH-DTNB | The reagent is used to quantitatively measure thiol group in a sample, which has a characteristic absorbance at 412nm | 100T |
| FP-SH-400nm | The reagent is used to quantitatively measure maleimide group in a sample, which emits blue fluorescence at 400 nm | 100T |
| FP-NH2-480nm | The reagent is used to quantitatively measure amino group in a sample, which emits blue fluorescence at 480 nm | 100T |
| FP-NH2-600nm | The fluorescent probe is used to label and measure amino groups in proteins. Before coupling to amino groups in proteins, the dye has a blue color, but the color changes to pink red after coupling to protein. The probe can be use for detecting nanograms of proteins in SDS-PAGE analysis | 100T |
| DY-TOX-UV-100T | The kit is used for counting the number of living cells or measuring cell viability, it is a replacement of CCK-8 | 100T |
| DY-TOX-UV-500T | The kit is used for counting the number of living cells or measuring cell viability, it is a replacement of CCK-8 | 500T |
| DY-TOX-UV-2000T | The kit is used for counting the number of living cells or measuring cell viability, it is a replacement of CCK-8 | 2000T |
| DY-TOX-UV-10000T | The kit is used for counting the number of living cells or measuring cell viability, it is a replacement of CCK-8 | 10000T |
| DY-TOX-UV-HS-100T | The kit is used for counting the number of living cells or measuring cell viability, which has a sensitivity that is twice high than CCK-8 | 100T |
| DY-TOX-UV-HS-500T | The kit is used for counting the number of living cells or measuring cell viability, which has a sensitivity that is twice high than CCK-8 | 500T |
| DY-TOX-UV-HS-2000T | The kit is used for counting the number of living cells or measuring cell viability, which has a sensitivity that is twice high than CCK-8 | 2000T |
| DY-TOX-UVHS-10000T | The kit is used for counting the number of living cells or measuring cell viability, which has a sensitivity that is twice high than CCK-8 | 10000T |
| DY-TOX-FL-100T | The fluorescence kit is used for counting the number of living cells or measuring cell viability, which has a high sensitivity and can measure as low as 50 cells per well. | 100T |
| DY-TOX-FL-500T | The fluorescence kit is used for counting the number of living cells or measuring cell viability, which has a high sensitivity and can measure as low as 50 cells per well. | 500T |
| DY-TOX-FL-2000T | The fluorescence kit is used for counting the number of living cells or measuring cell viability, which has a high sensitivity and can measure as low as 50 cells per well. | 2000T |
| DY-TOX-FL-10000T | The fluorescence kit is used for counting the number of living cells or measuring cell viability, which has a high sensitivity and can measure as low as 50 cells per well. | 10000T |
| KIT-Glucose-570nm | The fluorescent kit is used to quantify glucose concentration in a biological sample | 100T |
| KIT-Lactate-RD-570nm | The fluorescent kit is used to quantify lactate concentration in a biological sample, the kit can avoid the interferences caused by reactive oxygen species (ROS). | 100T |
| KIT-Lactate-OX-570nm | The fluorescent kit is used to quantify lactate concentration in a biological sample, the kit can avoid the interferences caused by reductants. | 100T |
| KIT-ALA-570nm | The fluorescent kit is used to quantify alanine concentration in a biological sample, which has an excellent selectivity | 100T |
| KIT-GLU-570nm | The fluorescent kit is used to quantify glutamate concentration in a biological sample, which has an excellent selectivity | 100T |
| KIT-H202-570nm | The fluorescent kit is used to quantify hydrogen peroxide concentration in a biological sample, which has an excellent selectivity | 100T |
| KIT-H202-615nm | This fluorescence kit does not contain any enzymes, but has high selectivity to hydrogen peroxide. The kit has very high sensitivity and users can use time-resolved fluorescence to quantify hydrogen peroxide, the autofluorescence in biological samples cause minimized interferences. | 100T |
| KIT-NADH-570nm | The fluorescent kit is used to quantify NADH concentration in a biological sample, which has an excellent selectivity | 100T |
| KIT-NTA-460nm | The kit is used to quantify nitrite concentration in a sample | 100T |
| KIT-NH3-450nm | The kit is used to quantify ammonia concentration in a sample | 100T |