Dynamic association between energy transition technologies, renewable energy production, trade openness, green investment, carbon tax, and carbon neutrality: empirical evidences from China

Abstract The existing millennium documents the most adverse consequences of global warming which in contrast to pre-industrial era are more devastating. Thus, these prevailing consequences raise numerous concerns regarding the well-being of future and current generation. Scholars, in this regard, are putting efforts punctiliously towards methods that could halt the surging emissions. This paper also attempts to contributes to existing literature by reporting the empirical evidences regarding the role of energy transition technologies, renewable energy production (REP), trade openness, green investment, and carbon taxes in carbon neutrality in Chinse economy covering the time span of 1980–2020. By employing Dynamic Auto-regressive Distributed Lags (DARDL) model to check the association, findings exposed that electricity production from water sources, electricity production from solar sources, REP, trade openness, green investment, and carbon taxes are negatively correlated with CO2 emissions. Study offers policymakers a help in formulating policies related to achieve carbon neutrality using renewable sources of energy production, carbon taxes, and green investment.


Introduction
The desperate need to address devastating challenges of global warming appears to be the most topical issue of present era.The reason is to make the peaceful coexistence of humankind and balancing ecosystem (Liu et al., 2022a;Sadiq et al., 2022cSadiq et al., , 2022d)).CONTACT Nguyen Thi Thu Thuy thuy.nguyenthithu@hust.edu.vnAmongst various reasons, every progress that has made in favour of economic growth, comes with environmental consequences, hence making environment a global issue.Policy makers, government institutions, international communities, in fact all entities are taking keen interest in finding way which can stabilise the economy and environment simultaneously, hence, aiming to reach 2030 sustainable goals.The particular edition of UN climate conferences, that held in 2021 with 200 nations, stressed out this important fact that governments of all economies must show commitment in order pursue 2050 carbon neutrality goal (Wang et al., 2021).
The net zero emission road map within targeted period has disclosed several factors that are bring identified as culprits of harmful emissions.For suppose, COP26 goals point out the need of reduction in coal power, fossil fuel resources that are estimated around 5.9 trillion dollars.Nonetheless Ness, vantage points stated above signal the efforts of economies which they are trying to minimise GHG emissions by initiating a steady, gradual yet persistent transitioning of non-renewables (Ainou et al., 2022;Zhao et al., 2022a;Wu et al., 2022).Along with it, the economies are also looking forward ways to promote technological innovation, considering it as an essential and effective method.Other than that, indicators such as carbon taxes, green investment, trade openness have also been proven effective predictors of environmental quality.These multitude efforts in attaining net zero emissions have been photographed under the advocacy of carbon neutrality, among which the outlined constructs contain higher rankings.As carbon neutrality is global goal, thereby, it is divine for all economies to welcome the ideology and make practical effort to embrace the target.Most profoundly, COP26 reputedly documented the commitment from 153 economies which made pledge to add meaningful practical contribution on "Nationally Determined Contributions" (NDCs).Among these economies, China is also one of those nations which promised to fulfil the commitment of net zero emissions and for that the country is working rigorously by opting those methods which help the country to achieve the targeted goal (Bai et al., 2022;Shi et al., 2021).
As discussed, this research is about enumerating carbon neutrality in China by analysing CO 2 .China is an emerging country with an upper-middle-income economy.Its total population will be 1,451,432,510 by 2022.The nominal GDP of China is $18.32 trillion, which shows the country at the 2 nd rank among the world countries, while the GDP (PPP) is $30.07 trillion, according to which it ranks 1 st among largest economies.There are three economic sectors, out of which Agriculture has a 7.9% GDP share, Industry and services have 40.5% and 51% in the country GDP (Sun et al., 2021;Sadiq et al., 2022aSadiq et al., , 2022b)).The environmental conditions in China are getting worse, keeping pace with the increasing population and economic expansion.About 10.67 billion metric tons of CO 2 emissions were released from China in 2020, and it shows a 177.90 million tons annual increase in CO 2 emissions from 2019 to 2020.China's per capita CO 2 emissions are 7.41 tons, and cumulative country's CO 2 emissions will be 235.56 billion tons by 2020.These figures for China's CO 2 emissions show it was the largest polluter that year across the globe.Due to COVID-19, most countries saw significant reductions in emissions in 2020, but China was ranked in those economies that witnessed the increase in emissions (Chen & Lin, 2021;Chien, 2022a).
Although China only really began to contribute to global CO 2 emissions at the beginning of the twenty-first century.It has yet to produce the 2 nd largest amount of CO 2 emissions ever in terms of cumulative production.China's cumulative CO 2 emissions will be 235.56 billion tons by 2020, while the United States' cumulative emissions will be 416.72 billion tons.This is still about half of what is produced in the United States, where industrialisation started far earlier (Chien et al., 2022b;Xu et al., 2022).Moreover, China makes a 30.65% share of annual global CO 2 emissions, whereas its share of global accumulative CO 2 emission is 13.89%.China's reliance on coal in its energy mix is one of the primary causes of its high emissions levels.China set an ambitious plan in 2020 to achieve carbon neutrality by 2060, necessitating a massive shift away from fossil fuel-powered energy and transportation (Chien et al., 2022c;Liu et al., 2022b).
China is the largest polluter and emitter of CO 2 in contrast with other economies.The large volume of CO 2 emissions year by year raise environmental issues for the country itself and also affects the climate in other areas of the world.The decreasing environmental quality is a hurdle in the country's everlasting development and achieving sustainable social progress as well as it also creates problems for neighbouring countries.Though the concerned authorities have considered all these issues and made a plan for achieving carbon neutrality by 2060 progress in this regard is not enough (Chien, 2022b;Koondhar et al., 2021).
Against the afore-mentioned discussion, the current study explores the proposed hypothetical arguments which proclaim that energy transition technologies, renewable energy production (REP), trade openness, green investment and carbon taxes are those predictors that stands out among other factors, hence, providing a better chance of carbon neutrality in economies like China which pledges to work devotedly for the sake of well-being of current and future generations.Besides, the preceding evidences reported strong empirical backing regarding energy transition technologies as a negative predictor of carbon emissions (Lin et al., 2022).Hence, keeping in mind its effectiveness towards zero carbon goal underscores its consideration in proposed framework.Further, the need to open for other economies, with the passage of time, has become inevitable for host countries.This proposition is backed by the fact that global openness increases the economic growth with faster pace.Hence, encourages the authors to inculcate trade openness in the framework.Moreover, the prior claims regarding trade environment seems to be inconclusive, hence, diverging the assumptions regarding positive and negative nexus of the construct with others.Thereby, the study intends to spotlight these two perspectives along with other factors such as green investment, carbon taxes and REP in recent times (Ibrahim, 2022;Kamarudin et al., 2021).
Under these propositions, the study offers few novelties in existing plethora.Firstly, the study adds fresh evidences regarding China's economy by investigating the nexus among outlined constructs as the country made an official statement to commit to achieve net zero emissions in COP26 conference.Secondly, a junction of technological energy transitions with trade openness, green investment and carbon taxes in the carbon neutrality framework appears to be add novelty in the context of China's economy.Also, with DARDL, the study offers interesting evidences which are helpful in the formulation of all-inclusive policies based on the knowledge fountain of proposed carbon neutrality model.
The present article comprises the following parts: The 2 nd part presents a review of previous studies to discuss the relationship among electricity production from water and solar sources, renewable energy production, trade openness, green investment, carbon taxes and carbon neutrality.The 3 rd part relates the methods applied for the collection of data and procedures to analyse this data for results.Research findings are described and confirmed with the views of similar studies.Then, study implications are described, a short conclusion is given, and limitations are highlighted.

Energy transition technologies and carbon neutrality
When carbon emissions and carbon absorption are in balance, this is referred to as being carbon neutral.When carbon neutrality is attained, the environment can be preserved, and the quality of the air, soil, water, minerals, energy sources, food and non-food crops, trees, and living resources can all be maintained.In these circumstances, the countries may achieve sustainable economic development thanks to a healthy, pleasant workplace and an abundance of high-quality natural resources (Chien et al., 2022a;Li et al., 2021).Although a variety of human activities contribute to CO 2 emissions.There is a large amount of literature about electricity production from water and solar sources, renewable energy production, trade openness, green investment, and carbon taxes' role in reducing CO 2 emissions and achieving carbon neutrality.The current study checks the relations of electricity production from water and solar sources as energy transition technologies, renewable energy production, trade openness, green investment, and carbon taxes with carbon neutrality in light of the literature review.

REP and carbon neutrality
The production of electric energy applying water sources leads to the discouragement of mining of oil, coal, and gas as well as people stop moving towards nuclear power plant construction and nuclear reaction to fulfil energy requirements.The reduction in fossil fuels and nuclear energy reduces the CO 2 emissions from different technical practices.Thereby, carbon neutrality is attained (Algarvio, 2021;Dinh et al., 2022).Research was conducted by Feng et al. (2022) and Wirsbinna and Grega (2021) to investigate the relationship among electricity production from water, energy transition, and carbon neutrality.The data were collected from the Chinese economy.The authors have the view that in most areas, people are able to acquire sustainable energy supplies if there is an increase in production of electricity from using water sources in the country.In this situation, the propensity of people to use renewable energy is growing, replacing the use of typical fossil fuel energy to keep on their functioning in different life spheres.This energy transition has the effect of reducing CO 2 emissions.As a result, carbon neutrality is feasible.In a research article, Irfan et al. (2021) and Jermsittiparsert (2021) examines the relationship between electricity production from water, energy consumption, energy transition, and carbon neutrality.The required information for electricity production from water, energy consumption, energy transition, and CO 2 emissions were obtained from 38 IEA countries.The authors find that the increasing electricity production from the water gives carbonfree energy and when there is energy, carbon neutrality can be accomplished Electricity production through the application of solar power systems, helps to increase the supply of clean and replenishing energy based on natural sources.This increasing energy supply discourages the firms' management from utilising backwards sources of energy and ore to achieve their professional goals.While wastes and pollution-emitting fossil fuels are discouraged from being used, there is a reduction in CO 2 emissions, and carbon neutrality can be achieved (Duong & Hai Thi Thanh, 2022;Hosseini & Wahid, 2020).Hartani et al. (2021) and Schreyer et al. (2020), examines the impacts of electricity from solar sources on carbon neutrality.The authors have the opinion that there is no danger associated with using solar energy.There is no concern about the generation of waste or the release of harmful gases or toxic compounds after using electricity in some procedures.Therefore, using electricity produced from solar resources ensures that there would be no excessive CO 2 emissions, which would otherwise constitute an imbalance in the volume of natural carbon.It indicates progress toward carbon neutrality.Ojogiwa (2021) and Razmjoo et al. (2021), throws light on electric power from solar systems, renewable energy, and CO 2 emissions.The authors acquired information from hybrid renewable systems specific to electricity production in Iran.The authors employed HOMER software for the analysis of the relationship between the factors.The supply of sustainable energy as the result of increased electricity from solar panel systems allows business organisations to adopt a sustainable energy consumption pattern.The energy transition from fossil fuels energy to renewable/sustainable energy reduces the organisations' CO 2 emissions.Hence, it becomes possible to achieve carbon neutrality (Phuoc et al., 2022;Quynh et al., 2022).
Fossil fuel and energy from nuclear power plants are preferred to be utilised in order to fuel business operations and also perform some household activities.But the utilisation of fossil fuel and nuclear power causes CO 2 emissions and are destructive to the environment.The supply from renewable energy production assists in overcoming fossil fuel and nuclear energy consumption and fighting against CO 2 emissions without causing hurdles the business operations and other human activities.Hence, increasing RE increases the capacity to achieve zero carbon goal (Gil & Bernardo, 2020;Lan et al., 2022).Dahal et al. (2018) and Shibli et al. (2021), did research to explore the influences of renewable energy production on the achievement of carbon neutrality.The demand for energy rises as human requirements rise in tandem with population growth, and people are forced to carry out more activities.It is now possible to meet rising human needs without causing CO 2 thanks to the development of renewable energy generation, which also helps to boost the energy supply to keep up with the rapidly rising energy demand.Thus, it is feasible to reach carbon neutrality.Shan et al. (2021), investigates the relationship between REP and green technology innovation with the degree of progress in achieving carbon neutrality.The authors employed the STIRPAT model to check the linkage between renewable energy production and green technology innovation and carbon emissions in Turkey over the time from 1990 to 2018.The results showed that renewable energy production has a positive association with progress in achieving carbon neutrality because the resultant REC reduces emissions.

Trade openness and carbon neutrality
Usually, trade openness is considered the source to increase CO 2 emissions with respect to a dramatic increase in household and commercial consumption levels.But, it also strengthens the country's capacity to combat emissions, for it generates high revenues, encourages technological development, and improves the knowledge about eco-friendly strategies applied in foreign countries.The actual reduction in CO 2 emissions, as the result of effective trade openness, is helpful to achieve zero carbon goal (Lahiani et al., 2021;Moslehpour et al., 2022b).Dauda et al. (2021), examines trade openness and innovation on carbon emissions.The nine African countries are the context of analysis for trade openness and innovation on CO 2 emissions over the period of 1990-2016.The research implies that in trade openness, the import of RE or the instruments essential to produce renewable energy encourages the transition of fossil fuel resources.Consequently, the considerable decrease in CO 2 emissions improves work on carbon neutrality.Moslehpour et al. (2022c) and Park et al. (2018), integrates association among TO, FD, EG, and ICT and carbon neutrality in EU context.The results showed that trade openness is helpful in planning and executing eco-friendly activities within the country.With the undertaking of such activities, CO 2 emissions can be overcome, and carbon neutrality can be attained.Hence, trade openness is positively linked to carbon neutrality.

Green investment and carbon neutrality
Green investment is helpful in ensuring eco-friendly innovation, which combats emissions (Ji et al., 2021;Liu et al., 2021b;Liu et al., 2022).Shen et al. (2021), investigates the green investment, NRR, and financial development and their effectiveness on carbon emissions.The panel data collected from thirty provinces of China and CS-ARDL approach is applied to test the relationship covering time span of 1995-2017.Green investments are able to draw a sizable amount of attention due to public awareness and interest, which makes the work of raising funds for eco-friendly activities much simpler.This reduces CO 2 emissions and improves carbon neutrality.Sharif et al. (2022) and Zhao et al. (2021), identifies the relationship of green investment and green technological innovation with carbon neutrality in G7 countries for the time of 1995-2019.Authors revealed that GI and carbon neutrality are positively significant as the green investment enables the firms to employ green technological innovation and, thereby, reduce carbon emissions.Lyeonov et al. (2019) and Tan et al. (2021), integrate the relations green investment role in carbon neutrality for attaining sustainable development.EU countries provide a context for the empirical analysis of the involved factors over the time from 2008 to 2016.The study implies that the execution of green programs requires financial resources.The green investment meets this requirement and assures CO 2 reduction.Hence, green investment has a positive link to carbon neutrality.

Carbon taxes and carbon neutrality
Numerous human activities, including social, personal, and the majority of commercial ones, have the potential to release carbon, which reacts with oxygen in the atmosphere to form CO 2 .Taxes are forced by government institutions on people and businesses that indulge in carbon-intensive activities.The goal of carbon taxes is to reduce CO 2 emissions.How effectively carbon taxes are implemented will influence how well CO 2 emissions can be reduced.This determines the progress on achieving carbon neutrality (Moslehpour et al., 2022a(Moslehpour et al., , 2022b;;Tirkaso & Gren, 2020).Ghazouani et al. (2020) and Nguyen et al. (2021), check the carbon taxes' role in achieving carbon neutrality.The authors carried out a test on the economies of two groups of European nations: one with implemented carbon taxes and one without any carbon taxes at all.In order to examine the impact of carbon taxes on CO 2 emissions, the propensity score matching method was applied.According to the study's findings, the effectively implemented carbon taxes speed up the decrease of CO 2 emissions and prepress carbon neutrality.In a study on environmental taxes and environmental quality, Wolde-Rufael and Mulat-Weldemeskel, (2021) and Zhao et al. (2022b) examine carbon taxes' role in achieving carbon neutrality in E7 context.The results showed that in countries where the government imposes carbon taxes, individuals and firms change their behaviours while making a choice of resources, techniques, and processes as they do not cause CO 2 emissions.In this situation, carbon neutrality is easy to achieve.

Research methods
The present paper examines energy transition technologies REP, trade openness, green investment, and carbon taxes and their effectiveness on carbon neutrality in China's economy.Secondary data was used extracted from various resources considering the period 1981-2020.The article has built the equation which is stated below: where CO 2 E ¼ Carbon Dioxide Emission; t ¼ Time Period; EPWS ¼ Electricity Production from Water Sources; EPSS ¼ Electricity Production from Solar Sources; REP ¼ Renewable Energy Production; TRO ¼ Trade Openness; GINV ¼ Green Investment; and CRT ¼ Carbon Taxes.
Carbon neutrality is used as the dependent variable in the study and four predictors such as energy transition technologies, trade openness, green investment and carbon taxes are viewed as the study predictors (see Table 1) The paper performed descriptive method to evaluate data properties.In addition, the study applied the matrix of correlation to check the directional connection among variables.Additionally, the study also used the Phillips-Perron (PP) and augmented Dickey-Fuller (ADF) test to assess unit root.The equation for the test is given as under: In addition, the study also applied the (Westerlund & Edgerton, 2008) approach to check the co-integration among variables.The equations for this approach are mentioned below: Equations ( 3) and (4) estimate beside standard error represents by ûi , while long-run measured variance is represented by r _ 2 , scalar polynomial with L lag length represented by ui ðLÞ¼ 1À R u ij L j , and factor loading parameters vector I represented by q i .Moreover, ARDL model was also employed to scrutinise the variables association.The model is appropriate for the situation when some variables have no unit root at I(0) or I(1) (Nazir et al., 2018).In addition, it also provides long as well as short-run nexus among understudy constructs.Finally, it manages the effects of autocorrelation and heteroscedasticity (Zaidi & Saidi, 2018).The ARDL expression for the study is given below: Finally, the study used DRADL approach to test the association among variables.The approach is proposed by Jordan and Philips (2018).It has the ability to get rid of the shortcoming that exists in the ARDL model.In addition, this approach is also suitable when co-integration exists.The DARDL equation is mentioned below:

Findings results
The findings in Table 2 indicates that carbon mean value is recorded 3.611 metric tons per capita followed by EPWS 1.014 percent, EPSS 79.818 percent, REP 17.975 percent, TRO 36.291percent, while the GINV 51.070 percent, and CRT 0.104 percent.Moreover, year-wise descriptive statistics can be shown in Table 3.The findings indicated that the CO2E highest value was recorded 8.191 metric tons per capita in 2020, the EPWS largest value was recorded 4.857 in 2015, while the EPSS largest value was recoded 82.843 percent in 2007, and the REP highest value was recorded 23.927 percent in 2015.In addition, the findings indicated that the TRO largest value was recorded 64.479 percent in 2006, while the GINV highest value was recorded 56.370 percent in 2020, and the CRT largest value was recorded 0.270 percent in 2008.
In addition, the study applied the matrix of correlation to check the directional connection among variables.The findings exposed that electricity production from water sources, electricity production from solar sources, REP, trade openness, green investment, and carbon taxes have a are negatively correlated with carbon emissions in China.These values are mentioned in Table 4.
Additionally, the study also applied the PP test along with the ADF test to assess unit root among constructs (see Table 5).The findings indicated that the CO2E, EPWS, EPSS, GINV, and CRT have no unit root at I(0).Contrastingly, results indicated that the REP and TRO have no unit root at I(1).
The study also applied the (Westerlund & Edgerton, 2008) approach to check the co-integration among variables.The findings exposed that the t-values are > 1.96 while the p-values are < 5%.These outcomes exposed co-integration exists (see Table 6) The study also applied the DARDL model to check the connection among variables.The findings exposed that electricity production from water sources, electricity  production from solar sources, REP, TRO, GINV, and CRT have a negative linkage with carbon emissions in China.These values are mentioned in Table 7.

Discussions
The results showed that electricity production from water sources has a positive association with carbon neutrality.Hence, consistent with Zhao and You (2020), which shows that when in a country the electricity production from utilising water sources is getting progressing, the people in the greater area of land are provided with renewable and clean energy.The increase in people tend to utilise replenishing clean energy, and overcome the use of coal, oil, gas, or ore to acquire and utilise energy to continue their functioning.As a result of reducing such energy, CO 2 emissions are controlled.Hence, carbon balance in the air is possible.Findings are also backed up by Bogdanov et al. (2021) and Van Hoa et al. (2022), which states that a country   with the efficiency to produce electrical energy from water can arrange large supply of energy with fewer side effects for the public.The use of electrical energy from water is effective in mitigating CO 2 emissions for leaving no gases and wastes.In this situation, carbon neutrality is likely to be achieved.Matching with the evidences of Wang et al. (2022), results highlight that through water sources, electricity production enhances the ability of the country to combat environmental pollution like CO 2 emissions, which is mostly because of naturally developed fossil fuel consumption as in this process, carbon is released in heavy amounts.That's why with increasing, electricity production, carbon neutrality can be attained.
The results showed that electricity production from solar sources is linked with carbon neutrality in positive manner and backed up by Shahsavari and Akbari (2018), which states that the solar system contains solar panels that attract the heat from the sunshine and help generate electricity, and are safe to be handled and used.In this way, the electricity production from the solar systems removes the effects of CO 2 emissions and provides a way to achieve zero carbon objective.Sriyakul et al. (2022) and Wang et al. (2021) also back up the study evidences that examines solar power's role in carbon neutrality.The study posits that the electricity from a solar system is safe to be utilised, and there is no fear of emission of toxic gases, hazardous chemicals, and waste creation after going through certain process where electricity is utilised.Hence, the use of electricity from a solar system is sure not to produce excessive CO 2 , which causes an imbalance in natural carbon volume, and it denotes carbon neutrality.Results are consistent with Thitinan and Chankoson Khunanan, (2022) and Vaka et al. (2020).According to this past study, the increase in electricity production from solar systems reduces the energy producers' pressure on fossil fuels consumption for generating electricity.Less dependency on fossil fuels for electricity production lowers the probability of emissions, leading to zero carbon goal.
The results showed that REP is positively linked with carbon neutrality.Results are backed up by De La Peña et al. (2022), that proclaims that the increase in RE by applying the replenishing natural resources enhances the supply of energy for innovative energy-efficient technologies.With the availability of low-voltage renewable energy, these innovative technologies consume less and give better outcomes causing lower environmental pollution.In this case, CO 2 emissions can be controlled.So, increasing renewable energy production improves carbon neutrality.These results are supported by the research of Ibrahim (2022) and Kurniawan et al. (2022), which is about renewable energy's role in achieving carbon neutrality.Authors say that as the human's socioeconomic needs are increasing, to keep pace with the larger population and consequently, people have to carry out numerous activities, the demand for energy increases.The increase in REP, enhancing the energy supply to cope with the fast-increasing energy demand, makes it possible to meet increasing socio-economic needs without creating CO 2 environmental problems.Hence the achievement of carbon neutrality is possible.Findings are backed up by Zhang et al. (2022), that indicates that the scaling in energy production by employing renewable natural resources, CO 2 is emitted by machines, plants, and other technologies for using energy can be reduced.
Trade openness and carbon neutrality are also linked positively according to study findings and backed up by study Li and Haneklaus (2022), which indicates that a country having high trade openness can develop an ability to generate sustainable energy like solar energy, bioenergy, wind power, and hydroelectric power etc., and in this case, the use of renewable & clean energy increases within the country.The economy of this country is less likely to create CO 2 , and therefore, it is more likely to achieve zero carbon goal.Findings are backed up by Khan et al. (2022), which posits that trade openness enables the country to establish relations with experts in economic and scientific fields and get knowledge about their initiatives to mitigate the repercussions of excessive energy usage.By applying these initiatives, CO 2 emissions can be controlled, which adds to carbon neutrality.These results also match with the past studies of Wang et al. (2022), which denotes that trade openness opens the way for economists to give rise to sustainable energy technologies and encourage business organisations to implement these technologies.Under the implementation of sustainable energy technologies, CO 2 emissions are minimum, and thereby, zero carbon goals is attainable.
The results showed that green investment has a positive association with carbon neutrality.These results are in line with the previous study Qin et al. (2021).According to the study, the implementation of green investment makes it easy for the business management to carry out business operations and, side by side, tackle the environmental issues that these operations are likely to cause.In this situation, managers succeed in reducing carbon emissions and helps in achieving zero carbon goals.These results are supported by the research of Zahan and Chuanmin (2021), that indicates that when the financial institutions have the policy make an investment in green programs through funding, ecologically friendly programs and activities are being encouraged by public and private organisations.Thus, these organisations can reduce CO 2 emissions from economic and social practices and therefore, it is easy to attain green agenda.Findings are matched with Meo and Abd Karim (2022), which states that the encouragement for green investment help mitigate CO 2 release and assures the achievement of carbon neutrality.
Carbon taxes and carbon neutrality are positively correlated, hence, confirming the evidences of Withey et al. (2022), which shows that when the government of some country makes amendment to laws and regulations that the carbon taxes are enforceable within the country, the practices, which include the utilisation of energy sources, chemicals, and wastes are brought to an end.As a result, there would be a dramatic decrease in CO 2 emissions, and the country has the capacity to maintain carbon neutrality.These results are supported by the research of Renner et al. (2018), which examines the carbon taxes impacts on carbon neutrality.The study claims that if the carbon taxes are imposed effectively, businesses and individuals try to have knowledge of which resources or processes would be responsible for CO 2 emissions and which practices they must perform in order to mitigate CO 2 emissions.This knowledge is helpful in achieving carbon neutrality.These results also match with the past study of Freire-Gonz alez and Ho (2019), which indicates that the effective enforcement of carbon taxes discourages carbon-emitting social and economic activities.
Hence, carbon neutrality can be achieved because, in this situation, CO 2 emissions decreases.

Implications
The study is significant for further learning of researchers on account of its contributions to literature.The major concern of the research is the attainment of carbon neutrality.The authors make a distinction in analysing the electricity production from water and solar sources, renewable energy production, trade openness, green investment, and carbon taxes' role in carbon neutrality for China.From the documented evidences, it is quite apprehensive that the alleviating effect of renewable energy on carbon emissions, confirms this belief that the transitioning of non-renewable resource in to renewable energy subdues the environmental and health-related problems which typically happens due to high emissions.In this lieu, making investment in RE products must be promoted at macro and micro both levels.Moreover, government institutions can also enforce tax free policies for those organisations that are utilising 70-90% RE sources in their production, manufacturing and operations.RE based products can also be promoted publicly in order to increase it accessibility and affordability.Also, making investments in infrastructures in order to meet the needs of growing population can also be helpful in energy transition technologies.Carbon alluring trade openness can also be poised with the help of trade policies, hence guiding the practitioners regarding the inflow and outflow of country in the form of goods/services.By giving priority to imports that matches with the notion of zero carbon goal, could also help economy to reach the carbon neutrality goal within given time Moreover, the study also guides that policy maker, both at the public, and private levels must enhance electricity production from water sources in order to achieve carbon neutrality.Similarly, policymakers must take care of the volume of electricity production from solar sources to mitigate CO 2 emissions and achieve carbon neutrality.The study makes a guideline that economic and environmental policies must encourage renewable energy production to accelerate progress towards carbon neutrality.It is suggested to policymakers that the government and economists must struggle to enhance trade openness and, hereby, increases the probability of achieving carbon neutrality.The study helps the policymakers in developing policies related to achieve carbon neutrality using renewable sources of energy production, carbon taxes, and green investment.The study conveys that at the private and government levels, the green investment must be encouraged so that carbon neutrality can be achieved.Authors also guide that government must enforce carbon taxes in order to attain carbon neutrality.

Conclusion
The study aimed to examine electricity production from water and solar sources, renewable energy production, trade openness, green investment, and carbon taxes on carbon neutrality.The Chinese economy is visited to acquire data for electricity production from water and solar sources, renewable energy production, trade openness, green investment, carbon taxes and CO 2 emissions.With the empirical data from China, the authors showed a positive relationship between electricity production from water and solar sources, renewable energy production, trade openness, green investment, carbon taxes and carbon neutrality.The results revealed that the increase in the electricity production from water sources raises the energy in plenty of quantity and assists in energy transition leading to removing CO 2 emissions and achieving carbon neutrality.Likewise, clean energy can be attained in abundance; if electricity is produced from solar sources; it becomes easy to reduce CO 2 and maintain carbon neutrality.The results also showed that the existing CO 2 could be reduced, and further CO 2 emissions can be controlled by applying renewable energy production systems and enhancing the total energy supply from these systems.So, renewable energy production helps achieve carbon neutrality.The results also stated that many social and human activities cause CO 2 emissions.The green investment encourages the undertaking of ecologically friendly practices and, thereby reduces CO 2 emissions and their effects.Hence, carbon neutrality can be achieved.The study concluded that the people who have to face heavy carbon taxes try to avoid the things which cause carbon emissions and can contribute to carbon neutrality.

Limitations
Some limitations are still associated with the current study.These limitations can be removed in further studies when researchers put in extra effort and are more alert.First, the authors have analysed only the limited variables like electricity production from water and solar sources, renewable energy production, trade openness, green investment, and carbon taxes, evaluating carbon neutrality.The limited factors under consideration for the analysis of carbon neutrality makes the research limited.It is recommended to researchers that they must consider more factors for a comprehensive research study on carbon neutrality.China is considered the country at the top of the list of CO 2 emitters.Other countries emit relatively lower CO 2 into the air, and their economic as well as geographical conditions are comparatively different.The present study can be valid in those countries to a limited extent.The researchers must pay attention to this weakness of the research and arrange a survey of a greater number of countries so a more general and valid study can be presented.