A: Raw materials used by BioSum ACR Bag is “sub-nanometer photocatalyst" and is finer than 10-9 molecular materials. When matter is as small as 1 to 100 nanometers, many of its features will easily change and have many unique features both different from macro-matters and single atoms due to the quanta effect, regional confinement of matter, and huge surface or interface effects. The final objective of nanometer technology is to produce products of special functions with new physical and chemical features by making atoms, molecules and matters presenting their features directly in the length of a nanometer: for example, the strength of ten times of iron could be very light, all information in a library could be stored in a chip the size of a sugar cube, and tumors the sizes of only several cells can be detected.
Theoretically, when photocatalyst absorbs radiation from sunlight or illuminated light source (like fluorescent lamps), it will produce pairs of electrons and holes. The electron of the valence band becomes excited when illuminated by light. The excess energy of this excited electron promoted the electron to the conduction band therefore creating the negative-electron (e-) and positive-hole (h+) pair. This stage is referred as the semiconductor's 'photo-excitation' state.
Simply speaking, ACR Bag absorbs light and produces energy to excite the bag’s inner coating elements to build into a specific energy wave frequency to break the toxic chemical bond residue in fruits and vegetables so as to decompose their toxic elements.
A:BioSum 健康蔬果袋原料為”次奈米光觸媒”,是一種比10-9還要細微分子材料,它就像宇宙的黑洞一樣,能吸收光線,產生能源,讓周圍分子產生劇烈運動,其特定波頻可以打斷蔬果農藥中有毒物質的分子鍵,使其毒性分解消失。其實,它就是太陽能的一種運用。一般說來,光觸媒是利用光來加快化學反應的速度。植物中的葉綠素是一種典型的天然光觸媒。葉綠素與人為納米光觸媒之間的差異:葉綠素吸收陽光把水和二氧化碳變成氧氣和葡萄糖,但相反的納米光觸媒產生強大氧化作用將有機物分解為二氧化碳和水。
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