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"Increasing miniaturization of devices, components, and integrated systems requires developments in the capacity to measure, organize, and manipulate matter at the nonoscale. This textbook is a comprehensive, interdisciplinary account of the technology and science that underpin nanoelectronics, covering the underlying physics, nanostructures, nanomaterials, and nanodevices. Without assuming prior knowledge of quantum physics, this book provides a unifying framework for the basic ideas needed to understand the recent developments in the field." "Numerous illustrations, homework problems, and interactive Java applets help the student to appreciate the basic principles of nanotechnology, and to apply them to real problems. Written in a clear yet rigorous and interdisciplinary manner, this textbook is suitable for advanced undergraduate and graduate students in electrical and electronic engineering, nanoscience, materials, bioengineering, and chemical engineering.Contents"

"ABSTRAKPartikel yang diperoleh hasil mechanical milling pada umummnya masih dalam ordemikro meskipun sudah berstruktur nano. Pengalaman milling dengau HEM-E3D,ukuran partikel berkisar pada 400 nm ke atas yang disebabkan terjadinya aglomerasi.Metoda baru mechanical trapping dilcembangkan untuk memperoleh partikel nanotunggal. Mechanical trapping merupakan penghancuran partikel partikel yang ditujudikondisikan terjebak atau dilapisi oleh partikel lain. Pada penelitian ini digunakan NaClsebagai matrik penjebak. Hasil XRD menunjukkan bahwa partilcel Cu2O murni yang dimechanical milling selama 2 jam telah berstuktur nano ukuran kristal sebesar 6.27 nm.Hasil PSA dari mechanical milling selama 2 jam dari campuran C1120 dan NaCl denganrasio 1 : 53 adalah partikel Cu2O sebesar 22.8 nm dalamjumlah 99.8 %.

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AbstractSynthesized particle by mechanical milling is still in micro order generally even alreadyhave nano structure. Milling experience by HEM-E3D, the size is more than 400nmbecause particle agglomerale. Mechanical trapping new method is developed to synthesissingle nano particle. Mechanical trapping is annihilation of particle which particle targetis trapped or covered by other particle. In this research, NaCl is used as trapper matrix.XRD result show that pure Cu2O particle which is mechanical milled in 2 hours have6.27 nm crystal size. PSA result of mechanical milled Cu2O : NaCl ( 1 : 53) in 2 hoursshow that particle size is 22.8nm ( 99.8 %)."

"This book presents a new, sustainable roadmap towards ultra-low-energy (femto-Joule), high-performance electronics. The focus is on the energy-efficiency of the various chip functions: sensing, processing, and communication, in a top-down spirit involving new architectures such as silicon brains, ultra-low-voltage circuits, energy harvesting, and 3D silicon technologies. Recognized world leaders from industry and from the research community share their views of this nanoelectronics future. They discuss, among other things, ubiquitous communication based on mobile companions, health and care supported by autonomous implants and by personal carebots, safe and efficient mobility assisted by co-pilots equipped with intelligent micro-electromechanical systems, and internet-based education for a billion people from kindergarden to retirement."

"Physical implementation of the memristor at industrial scale sparked the interest from various disciplines, ranging from physics, nanotechnology, electrical engineering, neuroscience, to intelligent robotics. As any promising new technology, it has raised hopes and questions; it is an extremely challenging task to live up to the high expectations and to devise revolutionary and feasible future applications for memristive devices. "

"The disagreement between the recent experimental results at Mainz [61], Saskatoon [66] also the theoretical calculation of Ey+(yp --> π °p) amplitudes based on ChPT [60] [18], Pascalutsa works [39] with the classical Low Energy Theorem's prediction [8] [9] have been an interesting discussion nowadays. We extend the Gross-Surya model which is relativistic, covariant, and unitary and gauge invariant [21] to electromagnetic channel, the pion photo production. We calculate the amplitudes especially near the threshold from the low energy region up to 600 MeV. Our result surprisingly is close to the recent experimental and theoretical results than the classical one.

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Ketidaksesuaian hasil eksperimen di Mainz [61], Saskatoon [66] dan hasil perhitungan teoritis ChPT [60] [18] dan Pascalutsa [39] tentang amplitudo dipol listrik E0+(yp -> π °p) dengan prediksi Teorema Energi Rendah klasik [8] [9] telah menjadi diskusi yang menarik. Kami mempergunakan model hamburan π N Gross-Surya yang relativistik, kovarian, unitari dan invarian tera [21] yang diperluas pada kanal elektromagnetik yaitu reaksi fotoproduksi pion. Reaksi fotoproduksi pion netral pada proton ini dihitung sampai energi Ey C 600 MeV. Ternyata hasil yang kami peroleh bersesuaian dengan perhitungan eksperimen dan teoritik yang terbaru."

"[This book presents the achievements in bionanoelectronics in a coherent manner. It deals with nanodevices applied to biostructures, molecular motors, molecular pumps, molecular nanoactuators and electronic biodevices, including nanodevices for sensing and imaging biomolcules. The book describes bionanoelectronics, detection of biomolecules and targets various biological applications such as detection and sequencing of DNA and early detection of various deseases and nanomedicine. Further important topics of the book are biomimetics and bioinspired electronics.The book also deals with biomolecules as building blocks of nanodevices for nanoelectronics or future computing architecture The application of scanning probe techniques to biological samples is described., This book presents the achievements in bionanoelectronics in a coherent manner. It deals with nanodevices applied to biostructures, molecular motors, molecular pumps, molecular nanoactuators and electronic biodevices, including nanodevices for sensing and imaging biomolcules. The book describes bionanoelectronics, detection of biomolecules and targets various biological applications such as detection and sequencing of DNA and early detection of various deseases and nanomedicine. Further important topics of the book are biomimetics and bioinspired electronics.The book also deals with biomolecules as building blocks of nanodevices for nanoelectronics or future computing architecture The application of scanning probe techniques to biological samples is described.]"

"Infeksi virus dengue (DENV) masih menjadi salah satu penyakit yang sering terjadi di dunia dan tak jarang menimbulkan kematian. Diagnosis dini yang akurat diperlukan untuk memberikan pengobatan yang tepat. Karena Indonesia merupakan negara kepulauan, metode deteksi menggunakan PCR menjadi kurang efektif sehingga alat berbasis lateral flow assay (LFA) yang menggunakan antibodi monoklonal sebagai biosensor-nya dapat menjadi solusi. Pengembangan nanobodi yang berasal dari hewan Camelidae dapat mengatasi kelemahan antibodi monoklonal karena kelarutannya yang tinggi, stabilitas yang lebih baik, dan dapat dimanipulasi secara genetik. Dengan menggunakan nanobodi yang telah diproduksi sebelumnya oleh Asih et al. (2022) dalam E. coli yang dapat mendeteksi infeksi DENV, maka selanjutnya dilakukan evaluasi menggunakan metode surface plasmon resonance (SPR) untuk mendapatkan parameter kinetika pada interaksi antara nanobodi dengan protein NS1 sebagai biomarker infeksi DENV. Penelitian diawali dengan perbanyakan kultur E. coli, ekspresi nanobodi dengan induksi IPTG, pemurnian nanobodi, konfirmasi hasil perolehan nanobodi dengan SDS-PAGE dan Western Blot, lalu diakhiri dengan uji SPR. Secara umum, respon sinyal SPR menunjukkan bahwa nanobodi klon DD5 dan DD7 mampu berinteraksi dan berikatan dengan antigen NS1 DENV-2. Nilai KD yang diperoleh saat ligan DD5 berinteraksi dengan variasi konsentrasi NS1 DENV-2 adalah 1,08 x 10-7 M. Sementara itu, nilai KD yang diperoleh saat ligan NS1 berinteraksi dengan variasi konsentrasi DD5 dan DD7 secara berturut-turut adalah sebesar 9,62 x 10-8 M dan 9,29 x 10-8 M.

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Dengue virus infection (DENV) is still one of the most common diseases in the world and sometimes causes death. Accurate early diagnosis is necessary to provide the right treatment. Because Indonesia is an archipelagic country, the detection method using PCR is less effective so a lateral flow assay (LFA) based tool that utilizes antibodies as its biosensor can be a solution. Developing nanobodies derived from Camelidae may overcome the drawbacks of monoclonal antibodies because they have higher solubility, better stability, and can be manipulated genetically. By using nanobodies previously produced by Asih et al. (2022) in E. coli which can detect DENV infection, the next step is to evaluate by using the surface plasmon resonance (SPR) method to obtain kinetic parameters on the interaction between nanobodies and NS1 protein as biomarkers of DENV infection. The study started with the preparation of E. coli culture, then continued with the expression of nanobodies by IPTG induction, purification of nanobodies, confirmation of nanobody acquisition by SDS-PAGE and Western Blot, then ended with the SPR test. Overall, both DD5 and DD7 appeared to be able to interact and bind to the NS1 DENV-2 antigen, according to the SPR signal response. The KD value obtained when the DD5 ligand interacted with various concentrations of NS1 DENV-2 was 1,08 x 10-7. Meanwhile, the KD values obtained when the NS1 ligand interacted with various concentrations of DD5 and DD7 were 9,62 x 10-8 and 9,29 x 10-8 respectively."