Journal of Thermal Analysis and Calorimetry

08/06/2026

📢📝 Call for Papers: Special Issue on Pyrolysis and Combustion under Extreme and Irregular Conditions (before 28 June 2026)

JTAC invites submissions of original research and review articles for a Special Issue exploring how pyrolysis and combustion processes evolve under conditions that challenge conventional theories, including ultra-high heating rates, cryogenic temperatures ❄️, extreme heat fluxes 🌡️, microgravity 🌌, and novel thermal-electrical ignition environments ⚡, advanced diagnostics 🔬 and applications in aerospace, energy systems, and fire safety 🔥.

📅 Submission deadline: 28 June 2026
🔗 More information: https://link.springer.com/collections/hchdgjddfd

Join us in advancing the fundamental science and emerging technologies that operate at the frontiers of extreme environments!

This Special Issue is dedicated to exploring the fundamental transformation of pyrolysis and combustion science under conditions that redefine conventional ...

05/06/2026

🌍♻️ World Environment Day spotlight: Turning automotive plastic waste into climate solutions

As the world unites for World Environment Day, innovative recycling technologies are becoming essential tools in the fight against pollution and climate change. A new study in JTAC demonstrates how pyrolysis can transform complex plastic waste from end-of-life vehicles into valuable chemicals and fuel precursors, that supports circular economy principles and reducing reliance on virgin fossil resources. The results could contribute to global efforts toward resource efficiency, waste reduction, and climate action by advancing sustainable management of automotive waste. 🚗🔬🌱

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15581-6

More information about UN World Environment Day:
https://www.un.org/en/observances/environment-day/

The management of end-of-life vehicles (ELVs) represents a crucial challenge in western world. In recent years, the automotive industry has increasingly substituted metal parts with lightweight and insulating plastic materials. As a consequence, conventional management methods for ELVs, such as comp...

29/05/2026

📢📝 Call for Papers in Special Issues before 30 June 2026

JTAC warmly invites researchers, scientists, engineers, and industry professionals to submit high-quality manuscripts to three Special Issues focused on emerging advances in thermal sciences, intelligent energy systems, and uncertainty-aware thermal engineering.

1. Uncertainty Modeling of Thermal Fields in Underground Cable Networks Using Fuzzy Inference Systems: this Special Issue focuses on uncertainty-aware thermal analysis and intelligent optimization of underground cable networks using fuzzy logic, soft computing, and AI-based approaches. Contributions addressing imprecise or uncertain data, physics-based and hybrid modeling, thermal reliability, operational safety, dynamic thermal rating, and smart grid or resilient infrastructure applications are welcomed.
More information: https://link.springer.com/collections/bijbigdagj

2. Advanced Thermal Analysis Approaches for Sustainable Energy Systems: Experiments, Modelling, and AI Integration: this Special Issue seeks manuscripts focused on the application of thermal analysis, calorimetry, AI and machine learning (ML) in sustainable and advanced energy systems. Expected contributions include experimental, computational, and data-driven studies addressing thermodynamic and kinetic processes involved in energy generation, storage, conversion, and utilization.
More information: https://link.springer.com/collections/adddcchjdb

3. International Conference on Futuristic Advancements in Materials, Manufacturing and Thermal Sciences (ICFAMMT-2026): this Special Issue seeks original research articles, review papers, and applied case studies focused on advanced thermal sciences, heat transfer, and sustainable energy technologies. Contributions may include theoretical, computational, experimental, and data-driven approaches aimed at improving the modeling, optimization, and practical application of thermal and energy systems.
More information: https://link.springer.com/collections/hbfgdeaage

Submission deadline: 30 June 2026

22/05/2026

☀️🔬 Predicting photovoltaic panel performance with AI and exergy analysis

A new study in JTAC demonstrates how combining nonlinear regression models, artificial neural networks, and exergy analysis can accurately predict the efficiency of photovoltaic solar panels under realistic conditions. The research highlights the critical role of solar irradiance, maximum power output, and temperature in photovoltaic panel performance, while showing how rising temperatures increase thermodynamic losses and reduce efficiency. These findings could support the development of more resilient, climate-adaptive solar technologies for the low-carbon energy transition. 🌍♻️

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15536-x

This study presents an integrated approach for evaluating the performance of photovoltaic (PV) panels by combining nonlinear multivariate regression, artificial neural networks, and thermodynamic (energy and exergy) analyses under real-world operating conditions. Experimental data reveal that panel....

15/05/2026

🔬 Advancing biomedical materials through borophosphate glass engineering
A new study in JTAC investigates the effect of calcium-oxide incorporation on structural, thermal, and optical properties of borophosphate bioactive glasses synthesized via the melt-quenching technique. The results demonstrate that CaO acts as a network modifier, inducing structural rearrangements, enhanced compactness, tunable electronic properties, and improved thermal stability. The finding could highlight the potential of bioactive glass materials for bone regeneration and advanced biomedical applications. 🦴🧪

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15579-0

A series of borophosphate glasses with the composition (65-x) B2O3 + 15 P2O5 + 20 Na2O + x CaO (x = 0, 2.5, 5, 7.5, 10, and 15 mol%) synthesized by melt-quenching technique. XRD analysis confirmed the amorphous nature of the glass. FTIR spectroscopy was used to investigate structural...

08/05/2026

🌊🪸 Turning waste coral into low-carbon cement
A new study in JTAC explores the development of an eco-friendly ternary binder, coral sand calcined clay cement, using waste coral sand powder and metakaolin as partial replacements for traditional cement in marine infrastructure. The material achieved significantly higher compressive strength than conventional Portland cement while refining pore structure and reducing global warming potential by nearly 40%, highlighting its potential as a sustainable low-carbon alternative for the cement industry. The findings also demonstrate how waste coral materials can be effectively valorized to enhance hydration reactions and long-term performance in cementitious systems. 🏗️♻️

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15478-4

This study investigates the use of waste coral sand powder (CSP) combined with metakaolin (MK) to develop an eco-friendly ternary binder, coral sand calcined clay cement (CSC3), for marine infrastructure. The binder replaced 45% of cement with CSP and MK and varied in gypsum content. Comprehensive t...

29/04/2026

🧪🔥 Insight into the thermal decomposition of solid silver citrate

Researchers in JTAC investigated how solid silver citrate decomposes when heated, combining thermal analysis, mass spectrometry, and microscopy to uncover multiple reaction stages and intermediate species. Their findings reveal complex reaction pathways and show how macroporous metallic silver with micrometer-scale pores is ultimately formed. This deeper mechanistic insight could enable better structural control over silver, which is key for applications in catalysis, sensing and antimicrobial materials. 🔬

🔗 Check out the Open Access study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15522-3

The reductive decarboxylation is a reaction which is used for the reduction of silver(I)-ions to solid silver in manifold applications. Despite the reductive decarboxylation is well investigated, details for the special case of silver citrate regarding the reaction mechanism and the structure of the...

22/04/2026

🔥 Hydrogel materials could transform firefighting while supporting sustainability.

International Mother Earth Day highlights the urgent need to focus on a more sustainable environment and human civilization. Hydrogel-based fire extinguishing materials 🧪💧offer a sustainable leap forward in firefighting, utilizing eco-friendly biopolymers like cellulose and sodium alginate to reduce environmental impact while maintaining high efficiency. A new review in JTAC underscores their ability to combine effective fire suppression with lower toxicity, cost advantages, and improved ecological compatibility compared to conventional agents. As research advances, hydrogels could play a key role in aligning fire safety technologies with global sustainability goals. 🌿🌍

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15517-0

Traditional firefighting methods struggle to address the escalating demands of high-temperature and hazardous fire scenarios, driving the need for innovative, sustainable solutions. Hydrogel-based materials, with their adaptable physicochemical properties, have emerged as a transformative approach t...

16/04/2026

🧠🔬 How can heat treatment change the behavior of smart materials? A new study in JTAC shows that a Ti-rich nickel–titanium alloy responds very differently depending on how it is processed: after heating to 1000 °C and rapidly cooling ❄️, the material undergoes a simple transformation and shows super elastic behavior, while slower cooling (0.5–1.0 °C/min) after annealing at 800 °C leads to more complex, multi-step transformations. These results highlight how carefully controlled thermal processing can fine-tune material properties for applications such as medical devices and advanced engineering systems ⚙️.

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15507-2

The specific heat capacities of solid battery materials like active electrode materials and separators were measured from approx. 300–550 K in this study. First, the method was validated by measuring the heat capacities of active anode materials silicon and tin disulfide, which could then be compa...

08/04/2026

🔋🌡️ Accurate thermal data are essential for designing safer lithium-ion batteries.
A study in JTAC reports the specific heat capacities of key battery components, including silicon and tin disulfide anodes, separator materials (Celgard 2500 and Whatman GF/C), and both disordered and ordered LiNi₀.₅Mn₁.₅O₄ (LNMO) between 300–550 K, with validation against literature values. Newly reported specific heat capacity data for LNMO reveal temperature-dependent differences between disordered and ordered structures, providing valuable input for precise thermal modeling and battery safety optimization. ⚙️📊

🔗 Check out the full study for more details on the JTAC webpage:
https://link.springer.com/article/10.1007/s10973-026-15452-0

The specific heat capacities of solid battery materials like active electrode materials and separators were measured from approx. 300–550 K in this study. First, the method was validated by measuring the heat capacities of active anode materials silicon and tin disulfide, which could then be compa...