Abstract: The present invention discloses a detection method for low-concentration metal ions in solution, which avoids damage of strong acids and strong alkalis to the field effect transistors (FET) while using a control solution as a reference for calibration. By adjusting the electronic signals (resistance, inductance, current, voltage, etc.) generated by the solution to be tested and the control solution to be the same, the voltage difference therebetween is employed to quantitively infer the metal ions concentration of the solution to be tested.

Abstract: An exosomal nucleic acid extraction method is provided. A substrate is provided, on which antibodies and silicon nanoparticles are disposed, and the antibodies have binding specificity to exosomal surface antigens. After that, based on the binding specificity between the antibodies and the exosomal surface antigens, exosomes in a specimen are separated. Next, the nucleic acids in the separated exosomes are adsorbed by the silicon nanoparticles.

Abstract: An oriented loading system is provided. The oriented loading system includes a substrate, a plurality of wells formed in the substrate, each well having a bottom and sidewalls, a plurality of particles loaded in the wells, wherein the particle comprises a core structure and an inner layer comprising magnetic material partially covering the core structure such that a part of the core structure uncovered by the inner layer is exposed, and a metal layer comprising magnetic material deposited partially in the sidewalls of the wells, wherein the inner layer is attracted by the metal layer such that the exposed core structure is oriented towards the bottom of the well or the inner layer is oriented towards the bottom of the well.

Abstract: The present invention relates to a method for detecting a target molecule, comprising forming a capturing complex comprising the target molecule; and binding the capturing complex with a signal amplifier, wherein the capturing complex has a net electrical charge; the signal amplifier has affinity to the capturing complex and has a like net electrical charge of the net electrical charge of the capturing complex. The invention improves the detection sensitivity and sensing limit of the detection.

Abstract: The present invention relates to a method for establishing a quantitative landscape of a group of target nucleic acid molecules. The method comprises conducting a plurality of hybridization reactions for quantifying each target nucleic acid molecule of the group of target nucleic acid molecules to generate a plurality of quantitative signals; generating ratios between two quantitative signals; and consolidating the ratios for constructing the quantitative landscape of the group of target nucleic acid molecules. The method according to the invention is able to profile numerous target nucleic acid molecules to provide a big data standardization means for a variety of applications with high sensitivity and wide dynamic range.

Abstract: A biosensors and a method of forming a probe on a solid surface of a biosensor are disclosed and the method includes the following steps. A unit (a nucleotide or an amino acid) capped with a protecting group is covalently bonded on the solid surface of one of a plurality of sensor cells of the biosensor. At least one cycle of the following steps is performed until a desired number of units is formed: irradiating the one of the plurality of sensor cells, so as to remove the protecting group of the unit; and binding a unit capped with the protecting group to the de-protected unit. The one of the plurality of sensor cells is irradiated to remove the protecting group.

Abstract: The present invention relates to a detection unit comprising a solid surface and a partially neutral single-stranded oligonucleotide comprising a first portion. The first portion is attached to the solid surface; the length of the first portion is about 50% of the total length of the partially neutral single-stranded oligonucleotide; and the first portion comprises at least one neutral nucleotide and at least one unmodified nucleotide. The invention improves the detection sensitivity and accuracy of the detection of biomolecules.

Abstract: The present invention relates to a method for detecting a target molecule, comprising forming a capturing complex comprising the target molecule; and binding the capturing complex with a signal amplifier, wherein the capturing complex has a net electrical charge; the signal amplifier has affinity to the capturing complex and has a like net electrical charge of the net electrical charge of the capturing complex. The invention improves the detection sensitivity and sensing limit of the detection.

Abstract: The present invention relates to a method for detecting methylation of a target oligonucleotide molecule. The method comprises obtaining an electrical change occurring due to the binding of an electrically charged methylation detecting molecule and the target oligonucleotide molecule; wherein the electrically charged methylation detecting molecule has affinity to a methylated cytosine nucleotide. The invention improves the detection sensitivity and accuracy of the oligonucleotide methylation detection.

Abstract: A method of using Neutrilized DNA (N-DNA) as a surface probe for a high throughput detection platform is disclosed. FET and SPRi are used as high throughput detection platforms to demonstrate that the N-DNA surface probe produces good results and enhances detection sensitivity. The N-DNA modifies the charged oxygen ions (O?) on the phosphate backbone through methylation, ethylation, propylation, or alkylation, so that the backbone is not charged after this modification to increase the hybridization efficiency, sensitivity and to make the signal more clear.

Abstract: An oriented loading system is provided. The oriented loading system includes a substrate, a plurality of wells formed in the substrate, each well having a bottom and sidewalls, a plurality of particles loaded in the wells, wherein the particle comprises a core structure and an inner layer comprising magnetic material partially covering the core structure such that a part of the core structure uncovered by the inner layer is exposed, and a metal layer comprising magnetic material deposited partially in the sidewalls of the wells, wherein the inner layer is attracted by the metal layer such that the exposed core structure is oriented towards the bottom of the well or the inner layer is oriented towards the bottom of the well.

Abstract: The present invention provides an antibiofouling composition, an antibiofouling membrane and a method for forming the same. The antibiofouling composition comprises a copolymer and at least one solvent. The copolymer comprises at least one hydrophobic segment and at least one antibiofouling segment where the hydrophobic segment comprises a plurality of hydrophobic moieties and the antibiofouling segment comprises a plurality of antibiofouling moieties. The molar ratio of the total of hydrophobic moieties to the total of the antibiofouling moieties is 0.5˜6.0.

Abstract: This invention discloses a peptide ligand with antibody selectivity and the application thereof. The peptide ligand with antibody selectivity comprises peptide ligand consisted of a sequence with 4 to 6 amino acids. The peptide ligand with antibody selectivity is able to bind with the hydrophobic region at the bottom of antibody's Fc region through non-covalent bonding. The mentioned peptide ligand with antibody selectivity can be applied to biochip for antibody oriented immobilization, and the biochip can provide high recognition efficiency to antigen. Besides, the mentioned peptide ligand with antibody selectivity can be applied as antibody purification material for purifying antibody with respective peptide ligand with antibody selectivity.

Abstract: A method of purifying a compound from a mixture through a chromatographic column loaded with a column adsorbent. The method comprises: applying the mixture to the chromatographic column; eluting the mixture with an elution solvent composition; and collecting the compound; wherein at least one of the column adsorbent and elution solvent is selected based on one of solubility parameters of the compound, column adsorbent, elution solvent, and conformation energy of the compound.

Abstract: The present invention provides an antibiofouling composition, an antibiofouling membrane and a method for forming the same. The antibiofouling composition comprises a copolymer and at least one solvent. The copolymer comprises at least one hydrophobic segment and at least one antibiofouling segment where the hydrophobic segment comprises a plurality of hydrophobic moieties and the antibiofouling segment comprises a plurality of antibiofouling moieties. The molar ratio of the total of hydrophobic moieties to the total of the antibiofouling moieties is 0.5˜6.0.

Abstract: A metal buffer layer assisted guided mode resonance (GMR) biosensor is disclosed. The GMR biosensor includes a substrate, a metal buffer layer and a waveguide layer. The metal buffer layer is disposed on the substrate and the waveguide layer is disposed on the metal buffer layer. The metal buffer layer, which is disposed adjacent to the waveguide layer, can carry out the total reflection and provide extra phase compensation of the total reflection at the same time. Accordingly, the propagation constant of the resonance wave would be much closer to the sensitivity of the phase, and the resonance electric field of the GMR biosensor would be much closer to the sensitive area. Consequently, the sensitivity of the GMR biosensor could be improved.

Abstract: A method of purifying a compound from a mixture through a chromatographic column loaded with a column adsorbent. The method comprises: applying the mixture to the chromatographic column; eluting the mixture with an elution solvent composition; and collecting the compound; wherein at least one of the column adsorbent and elution solvent is selected based on one of solubility parameters of the compound, column adsorbent, elution solvent, and conformation energy of the compound.

Abstract: The present invention discloses statistical antibiofouling nonionic-zwitterionic copolymers. The antibiofouling nonionic-zwitterionic copolymers are with the LCST (Lower Critical Solution Temperature) and/or UCST (Upper Critical Solution Temperature), and with increasing content of the nonionic monomers, the LCST and/or UCST of copolymers varies.

Abstract: An apparatus and a method for recognizing a person's gaze are disclosed, where the apparatus includes a main body, an eye-movement detector, a data generator and a transmitter, where the main body has the specific area. The eye-movement detector can detect whether a gaze is fixed on the specific area. The data generator can generate gaze data when the gaze is fixed on the specific area. The transmitter can transmit the gaze data to terminal equipment, so that the terminal equipment can receive information that the gaze is fixed on the specific area based on the gaze data, so that the terminal equipment can provide a prompt based on the gaze data.

Abstract: A nano/micro-structure and a fabrication method thereof are provided. The method combines electroless plating and metal-assist etching to fabricate nano/micro-structure on a silicon substrate.