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"Nanophotonics, a novel optical technology, utilizes the local interaction between nanometric particles via optical near fields. The optical near fields are the elementary surface excitations on nanometric particles, i.e. dressed photons that carry material energy. Of the variety of qualitative innovations in optical technology realized by nanophotonics, this books focuses on fabrication. To fabricate nano-scale photonic devices with nanometer-scale controllability in size and position, we developed a self-assembly method for size- and position-controlled ultra-long nanodot chains using a novel effect of near-field optical desorption. A novel deposition and etching scheme under nonresonant conditions is also demonstrated and its origin is reviewed."

"Penelitian ini bertujuan untuk membandingkan perubahan warna permukaan nanofil yang dipoles dengan teknik pemolesan one step dan multi step polish setelah perendaman kopi. 30 sampel, dibagi menjadi 3 perlakuan: dipoles PoGo® (one step), dipoles Sof-Lex® (multi step) dan tidak dipoles. Sampel direndam kopi selama 12 hari. Pengukuran perubahan warna menggunakan vita classic. Setelah perendaman selama 12 hari, seluruh sampel direndam kopi (dipoles Sof-Lex®, PoGo® dan tidak poles) menunjukkan perubahan warna. Perubahan warna pada nanofil dipoles Sof-Lex® lebih kecil dibanding PoGo® namun tidak bermakna. Dapat disimpulkan multi-step polish menghasilkan perubahan warna lebih kecil dibanding one step polish namun tidak bermakna.

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This research aims to compare color change on nanofiller polished by one step and multi step polish techniques after being immersed in coffee. 30 samples treated into 3 types, polished by PoGo® (one step), Polished by Sof-Lex® (multi step) and unpolished. Samples were immersed in coffee in 12 days. Colour change was measured by using vita classic. After 12 days of immersion, all sample groups (polished by PoGo®, polished by Sof-Lex®, and unpolished) immersed in coffee, reveal color change. Color change on nanocomposite polished by Sof-Lex® is less than the one polished by PoGo®. It can be concluded multi step polish produces less color change compare to one step polish but the difference is not significant"

"This book provides a comprehensive overview of contemporary basic research, emerging technology, and commercial and industrial applications associated with the electrophoretic deposition of nanomaterials. This presentation of the subject includes an historical survey, the underlying theory of electrophoresis, dielectrophoresis, and the colloidal deposition of materials. This is followed by an assessment of the experimental equipment and procedures for electrophoretic and dielectrophoretic aggregation, manipulation, and deposition of nanoparticles, nanotubes, and other nanomaterials. Additional chapters explore the specific science and technology of electrophoretic film formation, using widely studied and application-driven nanomaterials, such as carbon nanotubes, luminescent nanocrystals, and nano-ceramics. The concluding chapters explore industrial applications and procedures associated with electrophoretic deposition of nanomaterials."

"ABSTRAKGas CO adalah gas yang berbahaya, tidak hanya karena bersifat racun tetapi juga dikarenakan karakteristiknya yang tidak berbau, berwana dan tidak berasa. Pendeteksian secara konvensional tidak memadai untuk diaplikasikan di industri yang membutuhkan kecepatan dan ketepatan pendeteksian. Pengembangan sensor gas mengarah pada bahan metal-oksida semikonduktor seng oksida ZnO . Untuk meningkatkan performa sensor, reduksi ukuran dan proses pendopingan telah menjadi alternatif yang mumpuni. Dopan dengan sifat katalitik, yaitu serium CeO2 , dipilih dalam penelitian ini. Nanopartikel CeO2 disintesis melalui metode presipitasi dengan presipitator NH4OH. Proses optimasi ukuran nanopartikel CeO2 dilakukan dengan memvariasikan temperatur kalsinasi, yaitu 300 oC, 400 oC, 500 oC, 600 oC dan 700 oC . Karakterisasi CeO2 hasil sintesis dilakukan dengan menggunakan FTIR, XRD, PSA, dan TEM. Hasil FTIR mengidentifikasikan bahwa seluruh hasil sintesis mengandung gugus CeO2. Dari hasil karakteriasi XRD dapat diketahui ukuran kristalinitas CeO2 secara berurutan dari temperatur kalsinasi terkecil, yakni 5,3 nm, 5,7 nm, 6,5 nm, 9,9 nm, dan 12,3 nm. Selanjutnya nanopartikel CeO2 dengan ukuran terkecil, yakni hasil kalsinasi dengan temperatur 300 oC, dikarakterisasi lebih lanjut dengan menggunakan PSA dan TEM untuk memastikan sebaran ukurannya. Dari hasil PSA dan TEM diperoleh ukurannya adalah 113 nm dan 4 nm. CeO2 digunakan sebagai dopan dalam pembuatan lapisan tipis dengan memvariasikan konsentrasinya, yakni 0 wt , 4 wt , dan 8 wt . Pada penelitian ini digunakan tiga jenis metode deposisi yakni ultrasonic spray pyrolysis USP , dip-coating, dan spin-coating. Proses pendeposisian lapisan tipis ZnO yang didoping CeO2 dilakukan di atas substrat kaca terlapis emas. Selanjutnya hasil deposisi akan dianalisis morfologi kristalnya dengan menggunakan SEM, komposisi dengan EDS dan performa sensor dengan rangkaian alat deteksi. Morfologi lapisan tipis hasil deposisi dengan metode ultrasonic spray pyrolysis USP dan dip-coating menghasilkan bentuk partikel bulat sementara metode spin-coating menghasilkan bentuk nanowire. Performa sensor diuji dengan mengalirkan gas CO ke ruang uji dengan konsentrasi 100 ppm. Nilai sensitivitas sensor tertinggi bernilai 41 yang diperoleh pada sensor gas lapisan tipis ZnO yang didoping 4 CeO2 hasil deposisi dengan menggunakan metode dip-coating. Waktu respon dan waktu pulih tercepat adalah 5,5 detik dan 7 detik yang diperoleh pada sensor gas lapisan tipis ZnO yang didoping 8 CeO2 hasil deposisi dengan menggunakan metode dip-coating.

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ABSTRACTCarbon monoxide is a dangerous air pollution gas, not only due to its high toxicity but also because of its chemical characteristics exposure to CO occurs without the awareness of an individual. This gas is odorless, tasteless and colorless. Conventional detection is inadequate to apply in industries that require speed and accuracy of detection. The development of gas sensors leads to a metal oxide material of zinc oxide ZnO semiconductors. To improve sensor performance, reduction of size and preparation process has become a viable alternative. Dopants with catalytic properties, ie cerium CeO2 , were selected in this study. The CeO2 nanoparticles were synthesized by precipitation methods with NH4OH precipitators. The process of optimizing the size of CeO2 nanoparticles is done by varying the calcination temperature, 300 oC, 400 oC, 500 oC, 600 oC, and 700 oC. The synthesis of CeO2 characterization was performed using FTIR, XRD, PSA, and TEM. The FTIR results identify that all synthesis products contain the CeO2 group. The XRD result shows that the crystallite size of the cerium oxide increased from 5.3 nm to 12.3 nm as the calcining temperature increased from 300 to 700 oC. Furthermore, CeO2 nanoparticles that calcined at 300 C, are further characterized by using PSA and TEM to confirm the size distribution. From the results of PSA and TEM obtained size is 113 nm and 4 nm. CeO2 was used as a dopant in the manufacture of the thin films with different CeO2 Zn ratios, various concentrations were 0 2 and 6 wt . Ultrasonic spray pyrolysis USP , dip coating, and spin coating are used as the deposition method. The thin films deposited on top of a glass substrate with gold interdigitated electrode for electrical measurements . Furthermore, the deposition results will be analyzed by using SEM, EDS and sensor performance. In order to investigate gas sensing properties, the films deposited on top of glass substrates with gold interdigitated electrodes was heated at various temperature 150 oC, 200 oC, and 250 oC in chamber gas to collect resistance data. The volume of gas CO 100 ppm to be injected was controlled by the duration. The highest sensitivity sensor value is 41 obtained in the 4 CeO2 doped ZnO by dip coating method. Response time and recovery time is 5.5 seconds and 7 seconds is obtained in ZnO layer sensor which is doped 8 CeO2 with deposition using the dip coating method."

"Aligned Carbon Nanotube (ACNT) adalah salah satu jenis nanomaterial yang memiliki sifat luar biasa dan dapat digunakan untuk berbagai aplikasi di masa depan. LPG adalah salah satu sumber karbon yang dapat menghasilkan ACNT dengan metode Water Asssisted Chemical Vapour Deposition (WA-CVD). Penelitian ini mempelajari bagaimana kinerja dari substrat kuarsa dan bagaimana pengaruh suhu pertumbuhan dan waktu reaksi terhadap kualitas ACNT yang dihasilkan. Penelitian ini menghasilkan nanokarbon dengan yield yang cukup tinggi yaitu mencapai 2,70 mg/cm2. Hasil dari variasi waktu 100 menit dan 120 menit, didapatkan morfologi CNT yang dihasilkan pada waktu reaksi 100 menit lebih merata. Selanjutnya, uji pengaruh suhu terhadap hasil CNT menghasilkan produk pada suhu 800oC sebagai suhu optimum dimana yield dari nanokarbon adalah 2,22 mg/cm2 dan morfologi yang lebih merata dengan diameter 38 nm dilihat dari karakterisasi TEM, SEM-EDX, dan mapping. Sementara itu, keberadaan dari pengotor seperti karbon amorf dan CNT yang terenkapsulasi oleh katalis pada suhu 850oC didapatkan karena trade-off suhu tinggi dimana laju pelarutan karbon dalam katalis melebihi laju difusi dari karbon. Sedangkan sintesis dengan suhu 750oC hanya menghasilkan Carbon Nanofibers (CNF). Dengan hasil ini, dapat dikatakan bahwa orientasi dari CNT yang dihasilkan belum aligned atau dengan kata lain belum terbentuk ACNT. Meskipun demikian, orientasi dan morfologi paling merata didapatkan pada waktu reaksi 100 menit dengan 800oC. Perlakuan terhadap katalis menjadi suatu permasalahan belum didapatkannya ACNT. Selain itu, kinerja steam juga menjadi suatu masalah yang belum teratasi sehingga ACNT belum didapatkan. Waktu reaksi juga harus diturunkan untuk mendapatkan aligned dan penurunan waktu reaksi tidak akan jadi masalah untuk yield karena substrat kuarsa mampu menghasilkan yield yang tinggi.

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Aligned Carbon Nanotube (ACNT) is a nanomaterial with extraordinary properties and has very wide future applications. LPG is one of carbon source to produce ACNT through Water Assisted Chemical Vapour Deposition (WA-CVD) method. This research investigates performance of quartz substrate and effects of growth temperature and reaction time on the quality of ACNT. The synthesis in this research produced nanocarbon with high yield reaching 2.70 mg/cm2. At the varied reaction time (100 and 120 minutes), morphology of ACNT produced at 100 minutes is more uniform. Afterwards, growth temperature effect shows that 800oC is the optimum where the yield is reaching 2.22 mg/cm2 and more uniform morphology with diameter 38 nm characterized by TEM, SEM-EDX, and mapping. However, existence of polluter such as amorphous carbon and encapsulated CNT by the catalyst was obtained as trade-off of high temperature at 850oC where dissolution rate of carbon to catalyst is higher than diffusion rate of carbon. Meanwhile, at 750oC only Carbon Nanofiber (CNF) can be produced. Therefore, this research could not produced aligned structured of CNT. Yet, good orientation and morphology of CNT were produced at 100 minutes synthesis and at 800oC. Catalyst pretreatment is one of root cause of not producing ACNT. Besides that, the performance of steam could be another source of the problem. Reaction time has to be reduced until below 100 minutes to get aligned carbon nanotube. The reduced reaction time could still produced high yield since quartz substrate could bear high yield of nanocarbons including ACNT."

"This thesis explores four interesting topics within plasmonics, extraordinary optical transmission, negative refractive index metamaterials, plasmonic devices for controlling SPPs, and field enhancement phenomena near metal nanoparticles."

"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."

"Nanocomposite thin films consisting of titanium oxide, or TiO2, nanoparticles embedded in apolymer matrix represent a new class of potential materials for optoelectronic applications such as optical switches, waveguides, high refractive indices and non-linear optical devices. Among the various processing techniques under development for these nanocomposites, the in situ sol−gel process is known to be versatile as it enables control of the inorganic-organic interaction at various molecular, nanometer, and micrometer scales. However, the sol−gel process has a major limitation, which is the low crystallinity in the resulting TiO2 phase due to relatively low processing temperatures. Therefore, the current research is aimed at investigating the nanostructural evolution of theTiO2 crystallite during the in situ sol−gel process to gain a better understanding of the mechanisms responsible for the largely amorphous nature of TiO2 nanoparticles. For this purpose, two sol−gel parameters, i.e., the hydrolysis ratio (Rw) and pH value of the TiO2 precursor solution were varied. On the basis of XRD and FTIR analyses, it was found that the largely amorphous TiO2 state is related to the fast development of stiff Ti−OH networks during the hydrolysis and condensation stag es of the sol−gel process, and concurrently worsened by the formation of the rigid PMMA matrix upon thermal annealing."

"Nanofluida adalah jenis fluida yang sedang dikembangkan yang memiliki sifat konduktivitas yang lebih tinggi dibandingkan dengan air. Penelitian lebih lanjut diperlukan agar fluida baru ini dapat diaplikasikan secara efektif dan efisien. Tujuan dilakukannya pcnelilian ini adalah mempelajari pengamh penambahan partikel nano pada air terhadap nilai koefisien gesek jika Huida ini dialirkan pada pipa lurus. Penelitian dilakukan dengan cara mengalirkan fluida air dan nanofluida A1103 dcngan menvariasikan kecepatan aliran pada pipa lums berukuran 4 mm, 8 mm, dan 17 mm yang kemudian diukur nilai perbedaan tekanan dan debilnya. Hasil penelitian menunjukkan bahwa nilai koefisien gesek aliran nanofluida A1203 sedikit lebih kecil dibandingkan dengan aliran air pada aliran turbulen.

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Nanofluid is a kind of the fluid that is being developed which has higher conductivity rather than the water. It needs advance research in studying the effects of the adding the nano particle to water, due to the friction coefficient when this fluid flows in straight pipe. This research done by flowing the water and nanofluid A1203 , with variation of flow velocity in different straight pipe which has diameter 4 mm, 8 mm, and I 7 mm then measure the head loss and capacity. The results showed that the friction coefficient of nanofluid al203 flow less than the water at the turbulent flow."

"Sebuah penelitian sistematis telah dilakukan untuk mengetahui penyebab utama rendahnya tingkat kristalinitas nanopartikel titania (TiO2) di dalam nanokomposit TiO2−PMMA hasil proses sol−gel. Dari hasil investigasi diketahui bahwa fasa TiO2 amorfus di dalam nanokomposit disebabkan oleh pembentukan cepat dari jaringan kaku Ti-OH selama tahapan hidrólisis dan kondensasi, yang diperburuk dengan efek perangkap dari matrik PMMA. Sebuah metode kombinasi pra-anil dan pasca-hidrotermal berhasil meningkatkan tingkat kristalinitas fasa TiO2 secara signifikan , dengan tetap mempertahankan integritas matrik polimer di dalam nanokomposit. Analisis evolusi nano struktural TiO2 dalam nanokomposit dilakukan dengan pengujian XRD, spektroskopi FTIR dan TEM. Peningkatan kristalinitas nanopartikel TiO2 meningkatkan sifat-sifat optis linier dan nonlinier lapisan tipis transparan nanokomposit TiO2−PMMA

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A systematic investigation has been conducted to understand the mechanisms responsible for the low nanocrystallinity of TiO2 nanoparticles in sol−gel derived TiO2 −PMMA nanocomposites. On the basis of investigation, it is found that the largely amorphous TiO2 state is caused by the fast development of stiff Ti−OH networks during hydrolysis and condensation, worsened by the PMMA entrapment effect. A combined method involving a pre-annealing and a post -hydrothermal treatment has been successfully devised to enhance TiO2 nanocrystallinity, while maintaining the integrity of polymer matrix. The nanostructural evolution of TiO2 in nanocomposites were carried out with x-ray diffraction, Fourier Transfor Infra-Red (FTIR) spectroscopy and High -Resolution Transmission Microscope (HRTEM). The functional properties of the TiO2−PMMA nanohybrids have been correlated to their nanostructures, where both linear and nonlinear optical responses are shown to increase with the enhancement of TiO2 nanocrystallinity."