Degree-based topological indices and entropies of diamond crystals.

IF 2.6 4区 综合性期刊 Q2 MULTIDISCIPLINARY SCIENCES
Abdul Rauf Khan, Zafar Ullah, Muhammad Imran, Muhammad Salman, Arooj Zia, Fairouz Tchier, Shahid Hussain
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引用次数: 0

Abstract

High hardness, low friction coefficient and chemical resistance are only a few of the exceptional mechanical qualities of diamond. Diamonds can be artificially created to have different levels of conductivity, or they can be single, micro or nanocrystalline and highly electrically insulating. It also has high biocompatibility and is famous for being mechanically robust. Due to its high hardness, lack of ductility and difficulty in welding, diamond is a challenging material to construct devices with. Diamonds have experienced a rise in attention as a biological material in recent decades due to new synthesis and fabrication techniques that have eliminated some of these disadvantages. In general, entropic measurements are used for investigating the chemical or biological properties of molecular structures. This study calculates several important K-Banhatti entropies, redefined Zagreb entropies and atom-bond sum connectivity entropy for diamond crystals. We also present a numeric and graphical explanations of obtain indices.

基于度数的金刚石晶体拓扑指数和熵。
高硬度、低摩擦系数和耐化学性只是金刚石卓越机械品质中的一小部分。金刚石可以人工制造,具有不同程度的导电性,也可以是单晶、微晶或纳米晶,具有高度电绝缘性。它还具有很高的生物相容性,并以机械坚固而闻名。由于硬度高、缺乏延展性和难以焊接,用金刚石制造设备是一种具有挑战性的材料。近几十年来,由于新的合成和制造技术消除了其中一些缺点,金刚石作为一种生物材料受到越来越多的关注。一般来说,熵测量用于研究分子结构的化学或生物特性。本研究计算了金刚石晶体的几个重要 K-Banhatti 熵、重新定义的萨格勒布熵和原子键和连接熵。我们还对获得的指数进行了数字和图形解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Science Progress
Science Progress Multidisciplinary-Multidisciplinary
CiteScore
3.80
自引率
0.00%
发文量
119
期刊介绍: Science Progress has for over 100 years been a highly regarded review publication in science, technology and medicine. Its objective is to excite the readers'' interest in areas with which they may not be fully familiar but which could facilitate their interest, or even activity, in a cognate field.
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