Revealing the Phenomena of Heat and Photon Energy on Dealing Matter at Atomic Level

Ali, Mubarak

doi:10.20944/preprints201701.0028.v8

Cited by 2 publications

(2 citation statements)

References 26 publications

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“…Atoms of electronic transition do not elongate and those belonging to inert gases split under the excess propagation of photons characteristic current through their certain flowing density [1]. Under attaining certain state behavior, atoms process heat energy to generate photon energy [2]. Depending on the nature of atoms dealing solid behavior, they evolve different basis-structures as per applicable format of force [3].…”

Section: Introductionmentioning

confidence: 99%

Hard coating deposits: incompatible working energy and forced behaviours of gaseous and solid atoms

Ali

Hamzah

Toff

2020

Advances in Materials and Processing Technologies

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Coatings of specific materials in few atoms of thickness to several microns on certain substrate is the basic need of society and they attend the regular attention of scientific community working in different domains; decorative and protective coatings, transparent and insulating coatings, coating medical implants and surgical instruments, coatings for drug delivery and security purposes, ultra-precision machine coatings, coating cutting tools, coatings for MEMS and NEMS, and so on. Different coatings develop under significant composition of atoms where certain force-energy behaviors provide the provision for electrons (of gas atoms) to deal double clamping of energy knots of unfilled states (of solid atoms). Under certain process conditions, different nature atoms oppositely-switch force-energy behaviors to the ones originally owned where they locate common mid-points of their ground points at accommodating level resulting into deal binding. Because of adjusting contraction-expansion of clamping energy knots under varying potential energy of electrons, they develop structure of their atoms termed as hard coating, which is known since antiquity. Different properties and characteristics of hard coatings like hardness, adhesion, roughness and friction coefficient, etc. are emerged under attained mid-points of transformed atoms in evolving

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Section: Introductionmentioning

confidence: 99%

Hard coating deposits: incompatible working energy and forced behaviours of gaseous and solid atoms

Ali

Hamzah

Toff

2020

Advances in Materials and Processing Technologies

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“…Atoms of electronic transitions deform or elongate but don't ionize where force energy is related to photonic current instead of electronic current [44] and those atoms are eligible to evolve different structures [45]. The phenomena of heat and photon energy are discussed elsewhere [46] where neutral state silicon atom was taken model system. How atomic deformation/elongation and their field force behavior influence the performance of nanoparticles while using them as nanomedicine is discussed elsewhere [47].…”

Section: Introductionmentioning

confidence: 99%

Predictor Packing in Developing Unprecedented Shaped Colloidal Particles

Ali

Lin

Yeh

2018

NANO

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Developing anisotropic particles of different shapes has been a hot topic of research since decades as they possess special features not possible to achieve through other means. It is considered challenging to control atoms for developing their particles of certain size and shape. In this study, different shapes of gold particles were developed while employing a pulse-based electron–photon–solution interface process. Gold atoms, when they are in certain transition state, develop their monolayer assembly around the light glow known in argon plasma generating at the bottom of copper capillary known in cathode. The rate of uplifted gold atoms to develop monolayer assembly at solution surface is controlled by electron streams and traveling photons of high-density entering the solution. Gold atoms dissociated from the precursor on transforming photons (propagating through immersed graphite rod known in anode) to heat energy. Double-packets of nanoshape energy are generated under tuned pulse protocol when they are placed over the compact monolayer assembly resulting in tiny-sized particles of own shape. On the separation of joined tiny particles into two equilateral triangular-shaped tiny particles, each atom of their one-dimensional array elongated on both sides from the centre while exerting opposite poles forces of surface format. This results in convertion of each array of atoms into a structure of smooth elements. Due to immersing force of solution surface and their termination at the centre of light glow, tiny-shaped particles pack from different zones where their structures of smooth elements assemble to develop monolayers of developing particle in a certain shape. Developing particles of one-dimension undertake assembling of structures of smooth elements where packing of their tiny-shaped particles is from the near regions belonging to rearward sides of north–south poles at the solution surface, whereas, developing particles of multi-dimension undertake assembling of structures of smooth elements where packing of their tiny-shaped particles is from the regions of east–west poles and near regions of east–west poles on the solution surface. Depending on the number and orientation of assembled structures of smooth elements nucleating monolayers for different particles, their different anisotropic shapes develop. At fixed precursor concentration, increasing the process time results in developing particles of low aspect ratio. Under tuned parameters, particles of unprecedented features developed.

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Revealing the Phenomena of Heat and Photon Energy on Dealing Matter at Atomic Level

Cited by 2 publications

References 26 publications

Hard coating deposits: incompatible working energy and forced behaviours of gaseous and solid atoms

Hard coating deposits: incompatible working energy and forced behaviours of gaseous and solid atoms

Predictor Packing in Developing Unprecedented Shaped Colloidal Particles

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