Abstract: The augmented Zagreb index  of a graph  is defined as the sum of  over all edges  of , where  is the degrees of the vertex  in . In this paper, we characterize the extremal trees with given degree sequence that maximize and minimize the  index.

Keywords: Augmented Zagreb index, Degree sequence, Tree, Extremal graph.

Title: The Augmented Zagreb Index of Trees with Given Degree Sequence

Author: Fuqin Zhan

International Journal of Novel Research in Physics Chemistry & Mathematics

ISSN 2394-9651

Vol. 12, Issue 3, September 2025 - December 2025

Page No: 29-34

Novelty Journals

Website: www.noveltyjournals.com

Published Date: 27-November-2025

Abstract: Nano-Enhanced Phase Change Materials (NePCMs) have become high-performance thermal energy storage media as a result of their augmented thermal conductivity and faster melting–solidification behaviour. However, despite a great development in numerical modelling on NePCMs, one important methodological problem is still unknown: the formulation, implementation and validation of boundary conditions in Finite Volume Method (FVM) based simulations for a systematic way. This gap has helped to feed numerical instability, inaccurate melt-front prediction, and unreliable thermal-fluids behaviour in past studies. The present study overcomes this limitation by merging and validating a complete boundary condition in the form of a Neumann, Dirichlet and Mixed formulation in control volume discretisation. Using coupled momentum and energy equations, nanoparticle enhanced thermophysical models and matrix inversion schemes, the simulations were run for x- and y- direction momentum carrying as well as heat distribution. The results have shown that the specification of proper boundary conditions is an important factor in heat-flux continuity, velocity-field development, thermal stratification and numerical stability. The model captures realistic buoyancy-driven convection, uniform heat diffusion and stable temperature gradients. The study concludes that boundary-condition modelling is very basic in correct NePCM simulations. Policy and future recommendations involve the use of validated numerical frameworks in thermal-storage system designs, expansion of the model to transient, 3D problems, and inclusion of experimental benchmarking for improved predictive reliability.

Keywords: Boundary Condition Modelling, Finite Volume Method, Heat Transfer and Energy Storage, Nano-Enhanced Phase Change Materials, Numerical Stability Analysis, Thermophysical Property Enhancement.

Title: Boundary Condition Formulation and Validation in Finite Volume Modelling of Nano-Enhanced Phase Change Materials

Author: Florence Awuor Misawo, Onyango T. T. Mboya, Fredrick O. Nyamwala

International Journal of Novel Research in Physics Chemistry & Mathematics

ISSN 2394-9651

Vol. 12, Issue 3, September 2025 - December 2025

Page No: 8-28

Novelty Journals

Website: www.noveltyjournals.com

Published Date: 25-November-2025

Abstract: This study presents a comprehensive voltage-dependent characterization of nanocrystalline CdS/FTO heterojunctions, focusing on their suitability for optoelectronic applications. Capacitance–voltage (C–V) and conductance–voltage (G–V) measurements were rigorously performed at 100 kHz across a wide bias range. The series capacitance (Cs ) exhibited remarkable modulation exceeding 27,000%, correlated with a collapse in the depletion width and enhanced charge separation. The RC time constant (τ ) was demonstrated to be highly tuneable—ranging from sub-millisecond to tens of milliseconds—enabling bias-dependent optimization between detection speed and charge collection. Mott-Schottky analysis yielded a carrier density of 1.56×1020  cm⁻³ and a flat-band potential of −0.33 V, while conductance profiling at 100 kHz established an interface state density of 2.28×1011  cm⁻²eV⁻¹. These findings highlight the advanced dynamic and dielectric properties of nc-CdS/FTO heterostructures, and provide substantial insight for the rational design of next-generation, bias-tuneable optoelectronic and photodetector systems.

Keywords: depletion width, heterojunctions, Mott-Schottky analysis, nanocrystalline, optoelectronic, photodetectors.

Title: Voltage-Dependent Electrical Characterization of nc-CdS/FTO Heterojunctions: A Comprehensive Study for Optoelectronic Applications

Author: Baljinder Singh

International Journal of Novel Research in Physics Chemistry & Mathematics

ISSN 2394-9651

Vol. 12, Issue 3, September 2025 - December 2025

Page No: 1-7

Novelty Journals

Website: www.noveltyjournals.com

Published Date: 30-October-2025