Parkinson's disease (PD) is the second most common neurodegenerative disorder affecting more than 1% of the older population. Histopathologically, PD is characterized by a severe loss of dopaminergic neurons in the...Parkinson's disease (PD) is the second most common neurodegenerative disorder affecting more than 1% of the older population. Histopathologically, PD is characterized by a severe loss of dopaminergic neurons in the substantia nigra and cytoplasmic inclusions composed of insoluble protein aggregates (Lewy bodies), which lead to a pro- gressive movement disorder including the classic triad of tremor, bradykinesia, and rigidity.展开更多
Most of the human diseases are complex diseases,which could be caused by many genetic pathways.This means that for a given phenotype(i.e.,a complex disease),there are multiple potential genes which could be genomicall...Most of the human diseases are complex diseases,which could be caused by many genetic pathways.This means that for a given phenotype(i.e.,a complex disease),there are multiple potential genes which could be genomically or epigenetically changed(i.e.,mutations,copy number variations,epigenetic modifications,and so on).Therefore,it is understandable that different individuals who share the same phenotype/diseases may have different causal genes and thus,may have different drug targets.For example,mutated genes are rarely common between the cancer patients of the same cancer type[1];furthermore,for a given drug,only 10%-30% of the patients展开更多
Due to its fascinating and tunable optoelectronic properties,semiconductor nanomaterials are the best choices for multidisciplinary applications.Particularly,the use of semiconductor photocatalysts is one of the promi...Due to its fascinating and tunable optoelectronic properties,semiconductor nanomaterials are the best choices for multidisciplinary applications.Particularly,the use of semiconductor photocatalysts is one of the promising ways to harness solar energy for useful applications in the field of energy and environment.In recent years,metal oxide-based tailored semiconductor photocatalysts have extensively been used for photocatalytic conversion of carbon dioxide(CO_(2))into fuels and other useful products utilizing solar energy.This is very significant not only from renewable energy consumption but also from reducing global warming point of view.Such current research activities are promising for a better future of society.The present mini-review is focused on recent developments(2–3 years)in metal oxide semiconductor hybrid photocatalysts-based photo-electrochemical conversion of CO_(2)into fuels and other useful products.First,general mechanism of photo-electrochemical conversion of CO_(2)into fuels or other useful products has been discussed.Then,various metal oxide-based emerging hybrid photocatalysts including tailoring of their morphological,compositional,and optoelectronic properties have been discussed with emphasis on their role in enhancing photoelectrochemical efficienty.Afterwards,mechanism of their photo-electrochemical reactions and applications in CO_(2)conversion into fuels/other useful products have been discussed.Finally,challenges and future prospects have been discussed followed by a summary.展开更多
基金supported by the National Natural Science Foundation of China (81430021 and 81370470)
文摘Parkinson's disease (PD) is the second most common neurodegenerative disorder affecting more than 1% of the older population. Histopathologically, PD is characterized by a severe loss of dopaminergic neurons in the substantia nigra and cytoplasmic inclusions composed of insoluble protein aggregates (Lewy bodies), which lead to a pro- gressive movement disorder including the classic triad of tremor, bradykinesia, and rigidity.
文摘Most of the human diseases are complex diseases,which could be caused by many genetic pathways.This means that for a given phenotype(i.e.,a complex disease),there are multiple potential genes which could be genomically or epigenetically changed(i.e.,mutations,copy number variations,epigenetic modifications,and so on).Therefore,it is understandable that different individuals who share the same phenotype/diseases may have different causal genes and thus,may have different drug targets.For example,mutated genes are rarely common between the cancer patients of the same cancer type[1];furthermore,for a given drug,only 10%-30% of the patients
基金supported financially by Department of Science and Techanology,India,Institut National de la Recherche Scientifique(INRS),andÉcole de Technologie Supérieure(ÉTS),the Marcelle-Gauvreau Engineering Research Chair program。
文摘Due to its fascinating and tunable optoelectronic properties,semiconductor nanomaterials are the best choices for multidisciplinary applications.Particularly,the use of semiconductor photocatalysts is one of the promising ways to harness solar energy for useful applications in the field of energy and environment.In recent years,metal oxide-based tailored semiconductor photocatalysts have extensively been used for photocatalytic conversion of carbon dioxide(CO_(2))into fuels and other useful products utilizing solar energy.This is very significant not only from renewable energy consumption but also from reducing global warming point of view.Such current research activities are promising for a better future of society.The present mini-review is focused on recent developments(2–3 years)in metal oxide semiconductor hybrid photocatalysts-based photo-electrochemical conversion of CO_(2)into fuels and other useful products.First,general mechanism of photo-electrochemical conversion of CO_(2)into fuels or other useful products has been discussed.Then,various metal oxide-based emerging hybrid photocatalysts including tailoring of their morphological,compositional,and optoelectronic properties have been discussed with emphasis on their role in enhancing photoelectrochemical efficienty.Afterwards,mechanism of their photo-electrochemical reactions and applications in CO_(2)conversion into fuels/other useful products have been discussed.Finally,challenges and future prospects have been discussed followed by a summary.
