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    QIBEBT Reveals Cellulose Degradome of Clostridium cellulolyticum | 2013-05-10
    Lignocellulosic biomass is the most abundant biopolymers on earth, yet its recalcitrance to enzymatic hydrolysis has hampered its exploitation for renewable bioenergy and biomaterials. Cellulolytic bacteria such as Clostridium cellulolyticum, which digest cellulose via a cell surface-attached ext...more
    QIBEBT Developed Biofuel Cell Based on Microbial Surface Displaying Enzyme | 2013-04-02
    The Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences (QIBEBT-CAS) developed a novel approach for assembly of enzymatic biofuel cell (BFC), which can directly convert energy from xylose into electrical energy using xylose dehydrogenase (XDH) surface displayed b...more
    QIBEBT Develops Cathode Materials for Li-O2 Batteries | 2013-02-16
    The lithium-air battery, which has a comparable theoretical energy density with gasoline, has been considered one of the most promising energy storage devices for electric vehicles.
      High over-potential and short cycle life-times represent two major challenges to develop the currently investig...more
    QIBEBT Announced a Novel Microalgal Mass Cultivation Technology | 2012-11-28
    The microalga was considered as the most potential feedstocks for sustainable biofuel industry. However, the commercialization of microalgal biofuel was heavily restrained by the conventional aqueous-suspended cultivation methods (open ponds and closed photobioreactors) due to the energy loss in ...more
    Effective Conversion of Lignocellulose into Value-added Cellulosic Materials | 2012-11-20
    With the increasing scarcity of global fossil fuel resources, the synthetic fibers will be more and more restricted. Therefore, in order to meet the market demand, the development of the abundant, biodegradable, environmental friendly fiber materials with diverse functions has been paid extensive...more
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