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"his book about molecularly imprinted polymers, physical forms of MIPs, micro and nanofabrication of molecularly imprinted polymers, immuno-like assays and biomimetic microchips, chemosensors based on molecularly imprinted polymerschromatography, solid-phase extraction, and capillary electrochromatography with MIPs,and microgels and nanogels with catalytic zctivity."

"Molecularly Imprinted Polymers (MIPs) is a type of macromolecule formed by application of molecularly imprinting technology, which creates cavities in synthetic polymeric matrices which are highly selective to an imprinted template. MIPs were synthesized experimentally using methacrylic acid (MAA), divinylbenzene-80 (DVB-80), azobisisobutyronitrile (AIBN) and methanol as a monomer, cross-linker, initiator and porogen, respectively. The Non-Imprinted Polymer (NIP) was produced simultaneously to serve as a control polymer. The rational design approach was theoretically conducted by Ab Initio Molecular Orbital Studies using Gaussian 09 computational software package at the theoretical level of DFT B3LYP/6-31 (d,p). The basis set is used to optimize the number of monomers and their binding site with the template. In both studies, MIPs were prepared with different ratios of template to monomer form a complex of 1:3, 1:4 and 1:5. Experimentally, the MIPs synthesized via precipitation polymerization technique produced homogenous spherical beads distribution where the complex 1:3 gave the best. Theoretical studies support this experimental finding where the complex 1:3 gave the highest interaction energy between caffeine and MAA, -45.29 kJ/mol followed by 1:4, -43.52 kJ/mol and 1:5, -43.11 kJ/mol."

"Dalam beberapa waktu terakhir, banyak peneliti yang tertarik dalam memonitor asam galat. Hal ini dikarenakan asam galat memiliki banyak manfaat bagi kesehatan manusia, seperti antioksidan, antikanker, dan antiinflamasi. Asam galat dapat ditemukan dalam berbagai macam makanan, seperti sayur-sayuran dan buah-buahan. Namun, keberadaannya dalam sayur-sayuran dan buah terkendala dengan matriks yang kompleks sehingga diperlukan pemisahan yang selektif. Dari berbagai macam metode untuk memonitor asam galat seperti ekstraksi pelarut, HPLC fasa terbalik, dan LC-MS, metode molecular imprinted polymer disebut sebagai salah satu metode yang paling menjanjikan. Molecular imprinted polymer dinilai memiliki banyak keunggulan, diantaranya dapat disintesis dengan biaya yang murah, memiliki kestabilan yang baik pada berbagai macam kondisi fisika dan kimia, serta memiliki reusabilitas yang baik. Pada penelitian ini, dilakukan sintesis Molecular Imprinted Polymer dengan asam galat sebagai template dengan monomer metil metakrilat. Polimerisasi dilakukan secara polimerisasi bulk dengan penambahan pengikatsilang EGDMA dan inisiator AIBN. NIP sebagai perbandingan disintesis (tanpa penambahan template asam galat). Polimer hasil sintesis (MIP dan NIP) dikarakterisasi dengan FTIR, SEM, UV-Vis, dan TGA. Hasil karakterisasi FTIR menunjukkan puncak pada 1161 cm^-1 yang menunjukkan gugus karbonil pada ester hasil pengikatsilangan dengan EGDMA. Pada karakterisasi SEM, memperlihatkan morfologi dengan struktur yang tidak beraturan dengan permukaan yang tidak rata. Produk MIP memiliki kestabilan termal yang baik dengan kehilangan massa sebesar 63,09% hingga suhu 300 °C yang dibuktikan dengan instrumentasi TGA. Adsorpsi maksimum asam galat didapatkan pada waktu optimum 90 menit dengan % adsorpsi sebesar 85,64% dan qe sebesar 3,67 mg/g.

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In recent times, many researchers have become interested in monitoring gallic acid. It because gallic acid has many human health benefits, such as antioxidants, anticancer and anti-inflammatory properties. Gallic acid can be found in a variety of foods, such as vegetables and fruits. However, its presence in vegetables and fruit is constrained by a complex matrix, therefore selective separation is required. Various methods for monitoring gallic acid such as solvent extraction, reverse phase HPLC, and LC-MS, the molecular imprinted polymer method is cited as one of the most promising methods. Molecular imprinted polymer has many advantages, such as it can be synthesized at a low cost, has good stability under various physical and chemical conditions, and has good reusability. In this study, the synthesis of molecular imprinted polymer with gallic acid as a template with methyl methacrylate as a functional monomer. The polymerization was carried out by bulk polymerization with the addition of an EGDMA as a cross-linker and an AIBN initiator. Non imprinted polymer for comparison was synthesized (without addition of gallic acid template) as a control. The synthesized polymers (MIP and NIP) were characterized by FTIR, SEM-EDX, UV-Vis, and TGA. FTIR characterization peak was obtained at 1161 cm^-1 which showed the carbonyl group on the ester resulting from cross-linking with EGDMA. In SEM characterization, which regulates the morphology with an irregular structure with an uneven surface. The MIP product has good thermal stability with mass loss of 63.09% up to 300 °C as evidenced by TGA instrumentation. The maximum adsorption of gallic acid was obtained at an optimal time of 90 minutes with % adsorption of 85.64% and qe of 3.67 mg/g."

"Helps researchers utilizing molecular biology and biotechnology techniques to understand which type of calculation to use and why. The author reviews the mathematics and statistics related to the day-to-day functions of biotechnology and molecular biology laboratories. The book covers all of the basic mathematical and statistical procedures needed for such laboratory work."

"A unique, adaptable textbook for upper-level undergraduate and graduate courses emphasizing particular aspects of modern biotechnology.Features straightforward, jargon-free writing and extensive figures to help students make sense of complex biological systems and processes.Includes expanded coverage of the latest innovations in DNA sequencing techniques, therapeutics, vaccines, transgenic plants, and transgenic animals.Allows instructors to easily tailor the content to courses focusing on the fundamentals of biotechnology as well as courses dedicated to medical, agricultural, environmental, or industrial applications."