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"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. "

"Titania nanotube dengan dopan karbon (C-TiNT) telah berhasil disentesis dan diuji untuk degradasi fenol. Sintesis dilakukan dengan dua tahap yaitu pembentukan titania nanotube dengan metode hydrothermal dan pemberian dopan karbon pada fotokatalis TiO2 nanotube. Pemberian dopan karbon dilakukan dengan dua metode post treatment yaitu kalsinasi dan hydrothermal. Selain itu, juga dilakukan variasi jenis sumber dopan karbon yaitu glukosa dan 1-propanol. Karakterisasi dilakukan dengan menggunakan analisis SEM-EDS, XRD, dan DRS.Hasil SEM menunjukkan hasil morfologi nanotube telah terbentuk dan terdapat dopan karbon didalamnya. Analisis XRD menunjukkan pada semua katalis terbentuk kristal anatase 100% dengan ukuran kristal 7 - 10 nm. Karakterisasi DRS menunjukkan bahwa katalis nanotube dengan dopan karbon memberikan respon yang baik pada panjang gelombang cahaya tampak dengan nilai band gap 3,0 eV hingga 3,20 eV. Hasil pengujian terhadap fenol menunjukkan katalis C-TiNT mampu mendegradasi fenol dengan kinerja 60% hingga 80%. Nilai ini jauh lebih baik dibandingkan dengan TiO2 nanopartikel yang hanya mampu mendegradasi fenol dengan kinerja sebesar 33%.

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A variety of carbon doped on titania nanotube (C-TiNT) have already syntesied well as investigeted for phenol degradation. Synthesis has been conducted in two steps. First step was synthesis of titania nanotube by using hydrothermal method. Second step was incorporated carbon doped to the photocatalyst TiO2 nanotube. Carbon doped was also given by using two methods of post treatment. They are calcination and hydrothermal methods. In addition, we also examined two carbon sources of dopan. They are glucose and 1-Propanol. The prepared samples were characterized with SEM-EDS, XRD, and DRS.

The SEM result showed that nanotube morphology was already exist and contained with carbon. XRD analysis showed existence of anatase crystalline phase reached 100%, and size of crystal was around 7-10nm. DRS result showed good response to visible light range (λ > 400nm) which has band gap value at 3,0 eV-3,20 eV. The results of phenol degradation showed those photocatalyst have performance in range 60% - 80%.This result is much better compared to TiO2 nanoparticle which only degradated 33% of phenol."

"This monograph solely presents the Fowler-Nordheim field emission (FNFE) from semiconductors and their nanostructures. The materials considered are quantum confined non-linear optical, III-V, II-VI, Ge, Te, carbon nanotubes, PtSb2, stressed materials, Bismuth, GaP, Gallium Antimonide, II-V, Bi2Te3, III-V, II-VI, IV-VI and HgTe/CdTe superlattices with graded interfaces and effective mass superlattices under magnetic quantization and quantum wires of the aforementioned superlattices. The FNFE in opto-electronic materials and their quantum confined counterparts is studied in the presence of light waves and intense electric fields on the basis of newly formulated electron dispersion laws that control the studies of such quantum effect devices. The importance of band gap measurements in opto-electronic materials in the presence of external fields is discussed from this perspective. This monograph contains 200 open research problems. "

"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. "

"ABSTRAKA natural-based nanocomposite film consisting of chitosan, montmorillonite (MMT) and cashew nut shell liquid (CNSL) was synthesized. The nanocomposite was prepared by mixing a suspension of clay particles (filler, MMT) with a solution containing chitosan as the macroscopic polymer matrix. In this study, it was proposed that non-ionic long-chain alkylmolecules with possible interact ions with the amine group of chitosan could be used as a plasticizer. As a natu-ral source for these compounds, an extract of CNSL was used. A series of chitosan/MMT com-posite samples containing two different clay contents and a sample with an additional CNSL were prepared. FTIR spectroscopy of the nanocomposite films indicated that, by addition of CNSL, amide groups of the chitosan are probably less attached and have more space for vibration. CNSL seems to provide intermolecular spaces between the chitosan molecules. Atomic force microscopy (AFM) analysis showed that the composite containedparticles measuring 100 nm or less, which confirmed that the nanocomposite had been successfully produced by this method. Addition of CNSL as plasticizer improved the tensile strength by 10% and the elastic modulus by almost 18%. Cell growth was observed on all the nanocomposite samples studied."

"In this book, contributions from leadingexperts emphasize basic physical properties, synthesis and processing, and thelatest applications in such areas as energy, catalysis and data storage. Functional metal oxide nanostructuresis an essential reference with aninterest in metal oxides, and particularly in recent progress in defectphysics, strain effects, solution-based synthesis, ionic conduction, and theirapplications."

"Nanopartikel hybrid oksida besi/oksida tembaga/oksida seng telah disintesis dengan menggunakan metode sol-gel untuk tiga variasi molar. Seluruh sampel dikarakterisasi dengan spektroskopi X-Ray Diffraction, Field Emission Scanning Electron Microscopy, Vibrating Sample Magnetometer, Energy Dispersive X-Ray, Ultraviolet-visible Reflectance dan Fourier-Transform Infrared. Nanopartikel hybrid yang dihasilkan menunjukkan karakteristik feromagnetik dengan morfologi yang merupakan gabungan spherical-like dari oksida besi dan oksida seng dan clews-like dari oksida tembaga. Keempat unsur penyusunan nanopartikel hybrid hadir dalam bentuk ikatan Zn-O, Fe-O dan Cu-O dengan kehadiran fase dan struktur tunggal dari inverse cubic spinel magnetite, hexagonal wurtzite oksida seng dan monoclinic oksida tembaga. Celah energi nanopartikel hybrid cenderung turun dengan berkurangnya rasio molar oksida seng yang berhubungan dengan peningkatan kuantitas oksida besi dan oksida tembaga. Kondisi optimum aktivitas fotokatalitik nanopartikel hybrid dalam mendegradasi methylene blue dengan pemaparan cahaya ultraviolet diperoleh pada kondisi basa untuk pH 13. Nanopartikel hybrid dengan rasio molar 1:1:5 mampu menghasilkan degradasi maksimum dengan laju degradasi yang lebih tinggi dibandingkan nanopartikel oksida seng. Hole ditemukan sebagai spesies yang berperan aktif dalam aktivitas fotokatalitik nanopartikel hybrid dalam mendegradasi methylene blue.Iron oxide/cuprix oxide/zinc oxide hybrid nanoparticles with three variation of molar ratio have been synthesized using sol-gel methods. All samples were characterized by X-Ray Diffraction, Field Emission Scanning Electron Microscopy, Vibrating Sample Magnetometer, Energy Dispersive X-Ray, Ultraviolet-visible Reflectance and Fourier-Transform Infrared Spectroscopies. The resulting hybrid nanoparticles show ferromagnetic behaviour and have combination of spherical-like of iron oxide and zinc oxide morphologies with clews-like of cuprix oxide morphology. The four elements of the hybrid nanoparticles present in the form of Zn-O, Fe-O and Cu-O bonds and form individual crystal structures and phases of cubic inverse spinel of iron oxide, hexagonal wurtziteof zinc oxide and monoclinic of cuprix oxide. Energy gap of the hybrid nanoparticles tend to shift to lower energy that associates with increasing quantity of iron oxide and cuprix oxide with decreasing zinc oxide molar ratio. Optimum condition for photocatalytic activity of the hybrid nanoparticles in degrading methylene blue under ultraviolet light irradiation is obtained under alkaline conditions for pH 13. Hybrid nanoparticles with a molar ratio of 1:1:5 is able to produce the maximum degradation with higher degradation rate than zinc oxide nanoparticles. Hole found as species that plays an active role in photocatalytic activity of the hybrid nanoparticles to degrade methylene blue."

"ABSTRAKBerbagai penelitian mengenai teknologi nano terus difokuskan pada nanopartikel semikonduktor seng oksida (ZnO) dengan berbagai potensi strategis yang dimilikinya. Dalam penelitian ini telah dilakukan sintesis nanopartikel ZnO dengan teknik presipitasi yang dikombinasikan dengan perlakuan pra-hidrotermal dengan variasi waktu tahan 0, 24, 48 dan 72 jam yang secara khusus ditujukan untuk menginvestigasi pengaruh perlakuan tersebut terhadap ukuran nanopartikel, kristalinitas dan energi celah pita nanopartikel yang dihasilkan. Hasil penelitian menunjukkan bahwa meningkatnya waktu perlakuan pra-hidrotermal dari 0 hingga 72 jam mampu meningkatkan ukuran nanopartikel ZnO dari 3.47 menjadi 13.85 nm, serta menurunkan energi celah pita dari 3.099 menjadi 3.076 eV.

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ABSTRACTMany research on nanotechnology has been focused on zinc oxide (ZnO) semiconductor nanoparticles which has strategic potentials. In the current research the synthesis of ZnO nanoparticles has been performed, using a precipitation technique assisted by a pre-hydrothermal treatment with various holding time of 0, 24, 48 and72 hours. This route was specifically aimed at investigating the effect of this treatment on the nanocrystallite size, crystallinity and band gap energy of the resulting nanoparticles. The result of investigation showed that an increasing of pre-hydrothermal treatment duration from 0 to 72 hours has increased the crystallite size of ZnO nanoparticles from 3.47 to 13.85 nm, and decreased the band gap energy from 3.099 to 3.076 eV."