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"This second edition of Nanocrystalline materials provides updated information on the development and experimental work on the synthesis, properties, and applications of nanocrystalline materials. Nanocrystalline materials with new functionalities show great promise for use in industrial applications, such as reinforcing fillers in novel polymer composites and substantial progress has been made in the past decade in their synthesis and processing. This book focuses primarily on 1D semiconducting oxides and carbon nanotubes, 2D graphene sheets and 0D nanoparticles (metals and inorganic semiconductors). These materials are synthesized under different compositions, shapes and structures, exhibiting different chemical, physical and mechanical properties from their bulk counterparts. This second edition presents new topics relevant to the fast-paced development of nanoscience and nanotechnology, including the synthesis and application of nanomaterials for drug delivery, energy, printed flash memory, and luminescent materials. With contributions from leading experts, this book describes the fundamental theories and concepts that illustrate the complexity of developing novel nanocrystalline materials, and reviews current knowledge in the synthesis, microstructural characterization, physical and mechanical behavior, and application of nanomaterials."

"Material Perovskite-like layered structrure (PLS) La2Ti2O7 merupakan material feroelektrik yang sangat aplikatif dengan didasarkan pada sifat piezoelektrik, piroelektrik, dan elektro optik yang dimilikinya. Feroelektrik dikatakan unggul ketika memiliki sifat dielektrik yang tinggi yang dapat diaplikasikan untuk DRAM (Dynamic Random Access Memory) pada kapasitornya. PLS La2Ti2O7 dengan substitusi Zn2+ di situs Ti (La2Ti2- xZnxO7) dengan x = 0.0, 0.1, 0.2 berhasil disintesis menggunakan metode sol-gel yang dilanjutkan dengan proses sintering. Karakterisasi sampel telah dilakukan untuk mempelajari sifat struktur dengan data hasil XRD, SEM-EDS, UV-Vis dan sifat listrik dengan metode sprektoskopi impedansi. Hasil uji XRD menunjukkan bahwa semua sampel La(Ti,Zn)O single phase dan memiliki struktur stabil monoklinik dengan space group P21. Jari-jari atom doping Zn2+ (0.74 Ǻ) yang lebih besar dari atom Ti4+(0.61 Ǻ) menyebabkan pergeseran sudut 2θ lebih rendah sehingga parameter kisi akan lebih besar dan sebanding dengan volumenya. Hasil uji SEM menunjukkan bahwa penambahan konsentrasi Zn2+ menyebabkan grain size menurun yang konsisten dengan hasil yang diperoleh XRD yang mengkonfirmasi terjadinya penurunan cristalllite size seiring dengan kenaikan konsentrasi doping. Hasil EDX menunjukkan pada sampel murni tidak terdapat Zn di dalamnya dengan nilai persen atomic dan persen berat unsur Ti4+ menurun dan menunjukkan kenaikan pada unsur Zn2+ seiring kenaikan konsentrasi x. Hasil uji UV- Vis dengan data absorbansi diplot menggunakan metode tauc dan menghasilkan nilai energy band gap yang meningkat seiring kenaikan konsentrasi x. Hasil ini dikonfirmasi dengan hasil uji listrik yang menunjukkan nilai konstanta dielektrik yang meningkat dan konduktivitas yang meningkat seiring peningkatan konsentrasi x dikarenakan ada banyak kekosongan oksigen yang berkorelasi dengan hasil SEM.

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Perovskite-like layered structure (PLS) La2Ti2O7 is a highly applicable ferroelectric material based on its piezoelectric, pyroelectric, and electro-optic properties. Ferroelectric is said to be superior when it has high dielectric properties that can be applied to DRAM (Dynamic Random Access Memory) in the capacitor. PLS La2Ti2O7 with Zn2+ substitution at the B-site (La2Ti2-xZnxO7) with x = 0.0, 0.1, 0.2 was successfully synthesized using the sol-gel method followed by a sintering process. Sample characterization was carried out to study the structural properties using XRD, SEM-EDS, UV-Vis, and electrical properties using impedance spectroscopic methods. XRD test results showed that all samples of La(Ti,Zn)O were single phase and had a stable monoclinic structure with space group P21. The atomic radius of Zn2+ doped (0.74 ) which is larger than that of Ti4+ (0.61 ) causes a lower 2θ angular shift so that the lattice parameters (a, b, c) will be larger and proportional to the volume. The SEM test results show that the addition of Zn2+ concentration causes the grain size to decrease which is consistent with the results obtained by XRD which confirms a decrease in crystallite size along with the increase in doping concentration. The EDX results show that in the pure sample there is no Zn in it with the atomic percent and weight percent values of Ti4+ decreasing and showing an increase in Zn2+ as the concentration of x increases. The results of the UV-Vis test with absorbance data plotted using the tauc method and resulted in an energy band gap value that increased with the increase in x concentration. This result was confirmed by the electrical test results which showed an increasing dielectric constant value and an increasing conductivity with an increase in x concentration due to the presence of many oxygen vacancies which correlated with the SEM results."

"This book gives an overview of nanostructures and nanomaterials applied in the fields of energy and organic electronics. It combines the knowledge from advanced deposition and processing methods of nanomaterials such as laser-based growth and nanopatterning and state-of-the-art characterization techniques with special emphasis on the optical, electrical, morphological, surface and mechanical properties. Furthermore it contains theoretical and experimental aspects for different types of nanomaterials such as nanoparticles, nanotubes and thin films for organic electronics applications. "

"This book presents the fabrication of optoelectronic nanodevices. The structures considered are nanowires, nanorods, hybrid semiconductor nanostructures, wide bandgap nanostructures for visible light emitters and graphene. The device applications of these structures are broadly explained. The book deals also with the characterization of semiconductor nanostructures. "

"Busa Poliuretan (Busa PU) adalah salah satu material busa polimer yang banyak digunakan di berbagai bidang, contohnya adalah bidang struktural karena bahannya yang ringan dan kaku. Biasanya, dalam aplikasi struktural material ini digunakan sebagai inti dalam komposit sandwich. Tujuan pebelitian ini adalah menganalisa penambahan selulosa nanofibril (CNF) dari serat daun nanas terhadap sifat mekanik komposit CNF/PU . Selulosa nanofibril yang diambil dari limbah serat daun nanas (PALF) diisolasi dengan perlakuan awal berupa alkalisasi dan dengan perlakuan mekanik menggunakan ultrafine grinder. Penambahan CNF ke dalam busa PU menggunakan metoda tuang polimerisasi in-situ. Isolasi CNF dikarakterisasi dengan menggunakan XRD untuk melihat persentase kristalinitas, menggunakan FTIR untuk melihat pengurangan lignin dan hemiselulosa akibat perlakuan awal, dan TEM untuk mengukur ukuran diameter CNF. Karakterisasi komposit CNF/PU dilakukan dengan menguji tekan dan uji lengkung untuk melihat pengaruh CNF pada komposit CNF/busa PU terhadap sifat mekaniknya, dan morfologi komposit CNF/PU diamati dari citra SEM. Hasilnya, persentase kristalinitas CNF meningkat dari 74,97 % menjadi 75,28%. Pengurangan lignin dan hemiselulosa berhasil dilakukan. Ukuran diameter serat adalah 45-75 nm. Penambahan CNF yang optimum adalah penambahan 3 wt%, berhasil meningkatkan kuat tekan dari 237,02 kPa menjadi 283,70 dan kuat lengkung dari 572,23 kPa menjadi 744,10 kPa.

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Polyurethane foam is a polymer foam material that is widely used in various fields, for example in the structural application because of its light and stiff material. Typically, in structural applications this material is used as the core in sandwich composites. The objective of the current research was to analyze the CNF obtained from pineapple leaf addition to the mechanical properties of CNF/PU composites. Cellulose nanofiber from pineapple leaf fiber waste (PALF) was isolated by pretreatment in the form of alkalization and by mechanical treatment using an ultrafine grinder. The addition of CNF to the PU foam was used the in-situ polymerization pouring method. Isolated CNF was characterized using XRD to study the percentage of crystallinity, using FTIR to study the reduction in lignin and hemicellulose due to pretreatment, and TEM to measure the diameter of the CNF. Characterization of CNF/PU composites was carried out by compressive test and bending test to analyze the effect of CNF on the CNF/PU foam composites on their mechanical properties, and the morphology of CNF/PU composites was observed from SEM images. As a result, the crystallinity percentage of CNF increased from 74.97% to 75.28%. Lignin and hemicellulose was successfully reduced. The fiber diameter was 45-75 nm. The optimum composition of CNF was 3 wt%, succeeded in increasing the compressive strength from 237.02 kPa to 283.70 and the bending strength from 572.23 kPa to 744.10 kPa.

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"This book analyses the state of the art of piezoelectric nanomaterials and introduces their applications in the biomedical field. Despite their impressive potentials, piezoelectric materials have not yet received significant attention for bio-applications. This book shows that the exploitation of piezoelectric nanoparticles in nanomedicine is possible and realistic, and their impressive physical properties can be useful for several applications, ranging from sensors and transducers for the detection of biomolecules to “sensible” substrates for tissue engineering or cell stimulation."

"This volume is concerned with functional nanomaterials: materials containing specific, predictable nanostructure whose chemical composition or interfacial structure enable them to perform a specific job? destroy, sequester or detect some material that constitutes an environmental threat. Nanomaterials have a number of features that make them ideally suited for this job: high surface area, high reactivity, easy dispersability, and rapid diffusion. The purpose of this book is to showcase how these features can be tailored to address some of the environmental remediation and sensing/detection pr."