Ta 60

Manufactured by Shimadzu

Sourced in Japan

The TA-60 is a thermal analysis instrument manufactured by Shimadzu. It is designed to measure the physical and chemical properties of materials as a function of temperature or time. The TA-60 can be used to perform various thermal analysis techniques, such as thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC).

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Lab products found in correlation

Dsc 60, by Shimadzu (4 mentions) Tga 50, by Shimadzu (2 mentions) Tga 60, by Shimadzu (1 mentions) S 4800 microscope, by Hitachi (1 mentions) Axis nova, by Shimadzu (1 mentions) D2 phaser x ray diffractometer, by Bruker (1 mentions) K alpha, by Thermo Fisher Scientific (1 mentions) D8 advance, by Bruker (1 mentions) Adda 2, by Philips (1 mentions)

Spelling variants of this product

DSC TA 60 (3 citations) TA-60 Analysis software (3 citations) TA-60 Series (2 citations) TA-60 WS system software (2 citations) DSC60 TA-60 WS (2 citations) TA-60 thermal analyzer (2 citations)

26 protocols using ta 60

Thermal Characterization of Mycosynthesized AgNPs

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Thermogravimetric analysis (TGA) of the mycosynthesized AgNPs was conducted in nitrogen atmosphere on a thermogravimetric analyzer (TGA50, Shimadzu Company, Japan). For that, 5 mg of AgNPs were placed in an aluminum pan (Shimadzu Company, Japan; Catalog number: 201–52943) of TGA and the sample was heated in a temperature range of 25–595 °C at a heat rate of 10 °C/min to determine the weight loss profile and the amount of fungal residue on the AgNPs through thermal degradation. The data was analyzed using the TA-60 software (Shimadzu Company, Japan).

Barabadi H., Mobaraki K., Jounaki K., Sadeghian-Abadi S., Vahidi H., Jahani R., Noqani H., Hosseini O., Ashouri F, & Amidi S. (2023). Exploring the biological application of Penicillium fimorum-derived silver nanoparticles: In vitro physicochemical, antifungal, biofilm inhibitory, antioxidant, anticoagulant, and thrombolytic performance. Heliyon, 9(6), e16853.

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Thermal Stability Analysis by TGA

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Dry samples were tested in aluminum pans in a TGA-50 from Shimadzu (Kyoto, Japan). For this, samples were heated from room temperature to 600 °C at a rate of 10 °C/min under a nitrogen atmosphere and the data was processed with TA60 software version 2.11 from Shimadzu.

Gomez-Maldonado D., Vega Erramuspe I.B., Filpponen I., Johansson L.S., Lombardo S., Zhu J., Thielemans W, & Peresin M.S. (2019). Cellulose-Cyclodextrin Co-Polymer for the Removal of Cyanotoxins on Water Sources. Polymers, 11(12), 2075.

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Thermal Analysis of FLM-Lactose Mixtures

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A DSC-60, Shimadzu differential scanning calorimeter (Kyoto, Japan), with TA-60 software (version 1.51) was used for thermal analysis of FLM and lactose alone, or in binary mixture. Binary mixture (was prepared ( FLM- lactose 1:1 (W/W)), and blended uniformly by tumbling method. Then, DSC pans containing mentioned samples were prepared . and scanned in the temperature range of 25–300°C, with different heating rates (2.5, 10 and 15 °C/min).

Ghaderi F., Nemati M., Siahi-Shadbad M.R., Valizadeh H, & Monajjemzadeh F. (2017). Thermal Stability and Kinetic Study of Fluvoxamine Stability in Binary Samples with Lactose. Advanced Pharmaceutical Bulletin, 7(1), 43-51.

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Thermal Characterization of Zeolite-Chitosan Films

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Differential scanning calorimetry (DSC) and termogravimetric analysis (TGA) studies were performed on zeolite-chitosan composite films. TGA was done with a TGA-60 (Shimadzu, Kyoto, Japan) analyzer. All analyses were performed with 10~15 mg samples in platinum pans in a dynamic nitrogen atmosphere (100 mL/min), between 30 °C and 700 °C (10 °C/min). DSC analysis was performed with a DSC-60 (Shimadzu, Kyoto, Japan) analyzer. Samples (approximately 2–3.5 mg) were scanned in a sealed aluminum pan and heated to 550 °C (10 °C/min) under the nitrogen atmosphere (50 mL/min). The weight loss (TGA) and the enthalpies (DSC) were calculated using the TA.60 software provided by Shimadzu.

Hissae Yassue-Cordeiro P., Henrique Zandonai C., Pereira Genesi B., Santos Lopes P., Sanchez-Lopez E., Luisa Garcia M., Regina Camargo Fernandes-Machado N., Severino P., B. Souto E, & Ferreira da Silva C. (2019). Development of Chitosan/Silver Sulfadiazine/Zeolite Composite Films for Wound Dressing. Pharmaceutics, 11(10), 535.

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Thermal Analysis of Fine Powder

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The instrument used was DSC-60 (Shimadzu Corp, Japan) with Thermal Analyzer and Operating software of TA 60. The Flow controller was FCL 60. Indium was used as a reference. 5 mg fine powder was used as a sample and was placed in Al pan which was used as the sample holder. It was heated at the rate of 5 ^°C/min under a Nitrogen atmosphere in the Scanning range of 0–200 °C.

Gupta A.A., Mulay S., Mahajan P, & Raj A.T. (2019). Assessing the effect of ceramic additives on the physical, rheological and mechanical properties of conventional glass ionomer luting cement – An in-vitro study. Heliyon, 5(7), e02094.

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Thermogravimetric Analysis of PL-based Composites

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The thermogravimetric analysis (TGA) of the ε-PL, D1821, Na⁺-Mt, PL-Mt, OMt and PL-OMt was performed on a Shimadzu TA-60 (Kyoto, Japan). Approximately 5 to 10 mg of the sample was heated in a platinum crucible from 30 to 600 or 800 °C at a heating rate of 10 °C/min in a high-purity nitrogen flow of 50 mL/min.

Yuan X., Zhang J., Zhang R., Liu J., Wang W, & Hou H. (2019). Ultrasound-Assisted Preparation, Characterization, and Antibacterial Activity of Montmorillonite Modified by ε-Polylysine Hydrochloride. Materials, 12(24), 4148.

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Differential Scanning Calorimetry Analysis

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DSC was performed on a TA-60 (Shimadzu, Kyoto, Japan) after being calibrated using indium as the reference material. A sample of 2.0 mg was packed in a hermetically crimped aluminum pan and heated under dry nitrogen flow at 30 mL·min⁻¹. The samples were heated from 25 to 200 °C at a rate of 5 °C min⁻¹.

Alves T.F., Rios A.C., da Silva Pontes K., Portella D.L., Aranha N., Severino P., Souto E.B., Gonsalves J.K., de Souza Nunes R, & Chaud M.V. (2020). Bilayer Mucoadhesive Buccal Film for Mucosal Ulcers Treatment: Development, Characterization, and Single Study Case. Pharmaceutics, 12(7), 657.

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Aceclofenac Crystallinity and Melting Point

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For crystallinity, the samples were evaluated using P-XRD (Panalytical, X’pert), by scanning detector over 2θ angles at a scan rate of 0.01°. The melting point of aceclofenac raw drug, AC-N and fabricated tablet batch were performed by DSC (TA-60, Shimadzu). All the samples, which were about 3 mg, were placed in pans made of aluminum for heating, under 50 mL per min nitrogen flow rate and the scanning was kept at 10°C per min, from 40–200°C.

Rahim H., Sadiq A., Ullah R., Bari A., Amin F., Farooq U., Ullah Jan N, & Mahmood H.M. (2020). Formulation of Aceclofenac Tablets Using Nanosuspension as Granulating Agent: An Attempt to Enhance Dissolution Rate and Oral Bioavailability. International Journal of Nanomedicine, 15, 8999-9009.

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Thermal Analysis of Materials by DSC

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Differential scanning calorimetry (DSC) was performed on a Shimadzu TA-60 (Kyoto, Japan) calorimeter, using 5 mg samples in crimped aluminium pans. The instrument was calibrated using indium and zinc as standards. Nitrogen was used as a purge gas and an empty aluminium pan was used as a reference. Each sample was scanned at a rate of 5°C/min from 25 to 350°C, under N₂ atmosphere (flow rate 30 mL/min).

García A., Leonardi D., Salazar M.O, & Lamas M.C. (2014). Modified β-Cyclodextrin Inclusion Complex to Improve the Physicochemical Properties of Albendazole. Complete In Vitro Evaluation and Characterization. PLoS ONE, 9(2), e88234.

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Thermal Analysis of Raw and Processed AC

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The melting point and heat of fusion of unprocessed/raw and processed AC was determined by using DSC calorimeter (TA-60, Shimadzu, Japan). In aluminum pans, samples were heated, under nitrogen flow rate (50 mL/min), keeping the rate of scanning 10°C/min from 40°C to 200°C.

Rahim H., Sadiq A., Khan S., Khan M.A., Shah S.M., Hussain Z., Ullah R., Shahat A.A, & Ibrahim K. (2017). Aceclofenac nanocrystals with enhanced in vitro, in vivo performance: formulation optimization, characterization, analgesic and acute toxicity studies. Drug Design, Development and Therapy, 11, 2443-2452.

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